changed = False
if status != enabled:
changed = True
update_led(status)
fanshim.set_fan(status)
enabled = status
return changed
def set_automatic(status):
global armed, last_change
armed = status
last_change = 0
fanshim = FanShim()
fanshim.set_hold_time(1.0)
fanshim.set_fan(False)
armed = True
enabled = False
last_change = 0
t = get_cpu_temp()
if t >= args.threshold:
last_change = get_cpu_temp()
set_fan(True)
if not args.nobutton:
@fanshim.on_release()
def release_handler(was_held):
global enabled
changed = False
if status != enabled:
changed = True
fanshim.set_fan(status)
enabled = status
return changed
def set_automatic(status):
global armed, last_change
armed = status
last_change = 0
fanshim = FanShim(disable_button=args.nobutton, disable_led=args.noled)
fanshim.set_hold_time(1.0)
fanshim.set_fan(False)
armed = True
enabled = False
led_busy = Lock()
enable = False
is_fast = False
last_change = 0
min_temp = 30
max_temp = 85
signal.signal(signal.SIGTERM, clean_exit)
if args.noled:
led_busy.acquire()
fanshim.set_light(0, 0, 0)
def set_automatic(status):
global armed, last_change
armed = status
last_change = 0
if args.threshold > -1 or args.hysteresis > -1:
print("""
The --threshold and --hysteresis parameters have been deprecated.
Use --on-threshold and --off-threshold instead!
""")
sys.exit(1)
fanshim = FanShim()
fanshim.set_hold_time(1.0)
fanshim.set_fan(False)
armed = True
enabled = False
led_busy = Lock()
enable = False
is_fast = False
last_change = 0
signal.signal(signal.SIGTERM, clean_exit)
if args.noled:
led_busy.acquire()
fanshim.set_light(0, 0, 0)
led_busy.release()
#!/usr/bin/env python3
from fanshim import FanShim
import time
import colorsys
fanshim = FanShim()
fanshim.set_fan(False)
try:
while True:
h = time.time() / 25.0
r, g, b = [int(c * 255) for c in colorsys.hsv_to_rgb(h, 1.0, 1.0)]
fanshim.set_light(r, g, b, brightness=0.05)
time.sleep(1.0 / 60)
except KeyboardInterrupt:
pass
#!/usr/bin/env python3
from fanshim import FanShim
import time
import colorsys
fanshim = FanShim()
fanshim.set_fan(False)
try:
while True:
h = time.time() / 25.0
r, g, b = [int(c * 255) for c in colorsys.hsv_to_rgb(h, 1.0, 1.0)]
fanshim.set_light(r, g, b)
time.sleep(1.0 / 60)
except KeyboardInterrupt:
pass
#!/usr/bin/env python3
import signal, os
from fanshim import FanShim
fanshim = FanShim()
# Set time for long press on button to 2 sec
fanshim.set_hold_time(2.0)
# control for button on FansHim fan hat
@fanshim_on_release()
def releade_handler(was_held):
if was_held:
# system shutdown, on long press
os.system("sudo shutdown")
else:
# system reboot, on short press
os.system("sudo reboot")
try:
signal.pause()
except KeyboardInterrupt:
pass
from fanshim import FanShim
fanshim = FanShim()
# Set fan status
def set_fan(action=False):
if action == True:
status = "Enabled"
else:
status = "Disabled"
fanshim.set_fan(action)
return status
# Get fan status
def get_fan():
status = fanshim.get_fan()
if status == 1:
status = "Enabled"
else:
status = "Disabled"
return status
import cv2
import numpy as np
from app.utils import find_objects, raspberry_utils, gopigo_controls
import datetime
import argparse
from easygopigo3 import EasyGoPiGo3
import math
import time
from picamera.array import PiRGBArray
from picamera import PiCamera
import argparse
from fanshim import FanShim
fanshim = FanShim()
fanshim.set_fan(True)
utils = raspberry_utils.Utils()
cap = None
easy = EasyGoPiGo3()
easy.set_left_eye_color((10,20,30))
# def center_cone():
# b_box_rec = cones_data['cone-0']['bouding_box_center']
# print(f"Center of the rectangle-{b_box_rec}")
# print(f"Center of the screen-{center_of_the_screen}")
# cv2.line(frame_back, b_box_rec, center_of_the_screen, [0, 255, 0], 3)
# if center_of_the_screen[0] != b_box_rec[0]: # if the angle is not equal to 90 only do thistohis else we are getting divde by 0 error
# angle = int(math.atan((b_box_rec[1] - center_of_the_screen[1])/(b_box_rec[0] - center_of_the_screen[0])) * 180/math.pi )
# else:
global enabled
changed = False
if status != enabled:
changed = True
fanshim.set_fan(status)
enabled = status
return changed
def set_automatic(status):
global armed, last_change
armed = status
last_change = 0
fanshim = FanShim()
fanshim.set_hold_time(1.0)
fanshim.set_fan(False)
fanshim.pwm_freq = args.freq
fanshim.pwm_speed = args.speed
armed = True
enabled = False
led_busy = Lock()
enable = False
is_fast = False
last_change = 0
signal.signal(signal.SIGTERM, clean_exit)
if args.noled:
led_busy.acquire()
fanshim.set_light(0, 0, 0)
#!/usr/bin/python3 # bot.py import os, discord, random, time, wordladderlist from fanshim import FanShim fanshim = FanShim() def episodepicker(): """ Picks the episode, intro, and packages them together and returns message """ episodelist = ['ep.78 James Bond\'s Cousins', \ 'ep.77 ON MY GIRLFRIENDS BIRTHDAY???', \ 'ep.76 How Far Up The Egg Do The Pants Go?', \ 'ep.75 The Night Before Puzzmis w/ J.P. Riddles', \ 'ep.74 Booty Butt', \ 'ep.73 Sharkest Heart', \ 'ep.72 Skull & Boneheads', \ 'ep.71 Kid Friendly Episode (really!)', \ 'ep.70 Hundie Dollie Giveaway Returns! AKA Rap for Daddy!', \ 'ep.69 Dirty Sexy Riddles', \ 'ep.68 The Birds, the Bees, the Nicholas Cages', \ 'ep.67 Bleh Riddle Riddle 2!', \ 'ep.66 On the Ground, In Disguise', \ 'ep.65 Watson Can You Hear Me?', \ 'ep.64 The Purple Episode', \ 'ep.63 A Pun in the Pool', \ 'ep.62 Hey Riddle City Part 2!', \ 'ep.61 Fun at songs', 'ep.60 Floor Soup!', \ 'ep.59 That Sucks! That Rules!', \ 'ep.58 Flirty Chef!', \ 'ep.57 The Question is the Answer! with the teachers lounge', \
def set_automatic(status):
global armed, last_change
armed = status
last_change = 0
parser = argparse.ArgumentParser()
parser.add_argument('--threshold', type=float, default=37.0, help='Temperature threshold in degrees C to enable fan')
parser.add_argument('--hysteresis', type=float, default=2.0, help='Distance from threshold before fan is disabled')
parser.add_argument('--delay', type=float, default=2.0, help='Delay, in seconds, between temperature readings')
parser.add_argument('--preempt', action='store_true', default=False, help='Monitor CPU frequency and activate cooling premptively')
parser.add_argument('--verbose', action='store_true', default=False, help='Output temp and fan status messages')
args = parser.parse_args()
fanshim = FanShim(poll_time=args.delay/10)
fanshim.set_hold_time(1.0)
fanshim.set_fan(False)
armed = True
enabled = False
last_change = 0
t = get_cpu_temp()
if t >= args.threshold:
last_change = get_cpu_temp()
set_fan(True)
@fanshim.on_release()
def release_handler(was_held):
global armed
