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angoosh:main angoosh:online angoosh:standalone
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angoosh:online angoosh:standalone angoosh:main

9 Commits
91739586d0 ... standalone

Author SHA1 Message Date
angoosh
306827bcc3 added people.json, results and ordering script 2025-05-31 19:18:51 +02:00
angoosh
279814a30e fixed GTK hanging 2025-04-27 21:16:41 +02:00
angoosh
cee41ca595 added start to finish stopwatch 2025-02-25 18:17:36 +01:00
angoosh
46df08600d added stopwatch card reader code 2025-01-13 21:26:05 +01:00
angoosh
07473c8a20 added run script which forces Adw light theme because we don't support dark mode at this time 2024-11-30 17:11:22 +01:00
Angoosh Leviocki
c267155b25 modified timer so it counts to -10s 2024-11-27 16:18:09 +01:00
Angoosh Leviocki
da3215ec5e added header 2024-11-27 15:52:50 +01:00
Angoosh Leviocki
c1b729cf52 added base GUI structure for stopwatch 2024-11-27 15:41:06 +01:00
angoosh
7c871a3b5c added button top 3d model and buzzer to code 2024-02-28 19:37:58 +01:00
14 changed files with 814 additions and 5 deletions
Expand all files Collapse all files

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HW/timer_button/3D/Tlacitko_top.SLDPRT Normal file
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HW/timer_button/3D/Tlacitko_top.STL Normal file
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HW/timer_button/~timer_button.kicad_sch.lck
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{"hostname":"spock","username":"angoosh"}

201
SW/PC/Stopwatch/main.py Normal file
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import gi
import threading
import time
import usb.core
import usb.util
import requests
import json
gi.require_version('Gtk', '4.0')
from gi.repository import Gtk, Gio, Gdk, GLib
DEBUG = False
if DEBUG == True:
index = 2
else:
index = 1
activeCards = []
TIME = 60
USB_IF = 0 # Interface
USB_TIMEOUT = 5 # Timeout in ms
USB_VENDOR = 0xffff # Vendor-ID:
USB_PRODUCT = 0x0035 # Product-ID
with open('people.json', 'r') as f:
db = json.load(f)
class UsbCardReader():
def __init__(self, **kargs):
# Find the HID device by vendor/product ID
self.dev = usb.core.find(idVendor=USB_VENDOR, idProduct=USB_PRODUCT)
# Get and store the endpoint
self.endpoint = self.dev[0][(0,0)][0]
if self.dev.is_kernel_driver_active(USB_IF) is True:
self.dev.detach_kernel_driver(USB_IF)
# Claim the device
usb.util.claim_interface(self.dev, USB_IF)
self.receivedNumber = 0
cardread=threading.Thread(target=self.read)
cardread.start()
def read(self):
global win, activeCards, db
print("Waiting for card")
receivedNumber = 0
while True:
control = None
try:
control = self.dev.read(self.endpoint.bEndpointAddress, self.endpoint.wMaxPacketSize, USB_TIMEOUT)
if (control[2] != 40) & (control[2] != 0):
receivedDigit = control[2] - 29
if receivedDigit == 10:
receivedDigit = 0
receivedNumber = 10 * receivedNumber + receivedDigit
if (( control[0] == 0 )) & (( control[2] == 40 )) & (( not receivedNumber == 0 )):
try:
with open('people.json', 'r') as f:
db = json.load(f)
for i in db:
if db[i] == receivedNumber:
if i not in activeCards:
activeCards.append(i)
GLib.idle_add(win.arb, i)
else:
print("Card is active now")
except Exception as e: print(e)
receivedNumber = 0
except KeyboardInterrupt:
exit()
except:
pass
time.sleep(0.001)
class GridRow():
def __init__(self, parent, runner, index):
self.id = runner
self.index = index
self.parent = parent
self.grid = Gtk.Grid()
if index % 2 == 0:
self.grid.set_name("lightgrid")
else:
self.grid.set_name("darkgrid")
self.runid = Gtk.Label(label=str(runner), name="gridlabel")
self.runid.set_justify(2)
self.runid.set_width_chars(10)
self.runb = Gtk.Label(label='00:00', name="gridlabel")
self.runb.set_hexpand(1)
self.grid.attach(self.runid, 0, 0, 1, 1)
self.grid.attach(self.runb, 1, 0, 1, 1)
parent.grid.attach(self.grid, 0, index, 2, 1)
countdown=threading.Thread(target=self.updateTime)
countdown.start()
def printIndex(self, button):
print(self.index)
def updateTime(self):
t = TIME
while t >= -10:
if t < 0:
mins, secs = divmod((t * -1), 60)
timer = '-{:02d}:{:02d}'.format(mins, secs)
else:
mins, secs = divmod(t, 60)
timer = '{:02d}:{:02d}'.format(mins, secs)
GLib.idle_add(self.runb.set_label, timer)
time.sleep(1)
t -= 1
if t == 10:
if self.grid.get_name() == "lightgrid":
GLib.idle_add(self.grid.set_name, "lredgrid")
else:
GLib.idle_add(self.grid.set_name, "dredgrid")
GLib.idle_add(GridWindow.remRow, self.parent)
class GridWindow(Gtk.ApplicationWindow):
def __init__(self, **kargs):
super().__init__(**kargs, title='Alkator Clock')
css_provider = Gtk.CssProvider()
css_provider.load_from_file(Gio.File.new_for_path("style.css"))
Gtk.StyleContext.add_provider_for_display(Gdk.Display.get_default(), css_provider, Gtk.STYLE_PROVIDER_PRIORITY_APPLICATION)
self.set_default_size(640, 480)
button1 = Gtk.Button(label='addrow')
button2 = Gtk.Button(label='rmrow')
button1.connect("clicked", self.arb)
button2.connect("clicked", self.rrb)
runlabel = Gtk.Label(label="ID", name="gridlabel")
runlabel.set_justify(2)
cntlabel = Gtk.Label(label="Countdown", name="gridlabel")
cntlabel.set_justify(2)
self.runners = []
self.grid = Gtk.Grid()
if DEBUG == True:
self.grid.attach(button1, 0, 0, 1, 1)
self.grid.attach(button2, 1, 0, 2, 1)
self.grid.attach(runlabel, 0, 1, 1, 1)
self.grid.attach(cntlabel, 1, 1, 2, 1)
else:
self.grid.attach(runlabel, 0, 0, 1, 1)
self.grid.attach(cntlabel, 1, 0, 2, 1)
self.set_child(self.grid)
def arb(self, personId):
global index
self.runners.append(GridRow(self, personId, index))
index += 1
def rrb(self, button):
global index
self.remRow()
def addRow(self, runner, index):
runid = Gtk.Label(label=str(runner))
runb = Gtk.Button(label='time_placeholder')
self.grid.attach(runid, 0, index, 1, 1)
self.grid.attach(runb, 1, index, 1, 1)
def remRow(self):
global index, activeCards
if index > 1:
self.grid.remove_row(1)
index -= 1
del activeCards[0]
def on_activate(app):
# Create window
global win
win = GridWindow(application=app)
win.present()
UsbCardReader()
app = Gtk.Application(application_id='com.example.App')
app.connect('activate', on_activate)
app.run(None)

23
SW/PC/Stopwatch/order.py Normal file
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import operator
import json
db=""
res={}
with open('times.json', 'r') as f:
db = json.load(f)
for i in db:
try:
res[i] = db[i]["duration"]
print(i, db[i]["duration"])
except:
print(i)
pass
#print(res)
order = dict(sorted(res.items(), key=lambda item: item[1]))
with open("results.json", 'a') as f:
f.write(json.dumps(order, indent = 4))

102
SW/PC/Stopwatch/people.json Normal file
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{
"1": 1114418469,
"2": 1111554085,
"3": 1112605381,
"4": 1362080126,
"5": 1632101230,
"6": 1114533941,
"7": 1364901054,
"8": 1364587710,
"9": 1364867822,
"10": 1364554558,
"11": 1364968750,
"12": 1111614357,
"13": 1362569198,
"14": 1364867662,
"15": 1112618821,
"16": 1364967150,
"17": 1364592718,
"18": 1364487310,
"19": 458336708,
"20": 1111590293,
"21": 1114448773,
"22": 1364550814,
"23": 1112421509,
"24": 1364529422,
"25": 1364916590,
"26": 455988804,
"27": 1631963022,
"28": 1114508533,
"29": 1364590606,
"30": 1364796894,
"31": 1112489029,
"32": 1114588261,
"33": 1111733589,
"34": 1112469509,
"35": 1632521678,
"36": 1631957710,
"37": 1111682853,
"38": 1111882197,
"39": 1631960974,
"40": 1362260606,
"41": 1364521806,
"42": 1364489406,
"43": 1361969902,
"44": 1364581838,
"45": 1364520526,
"46": 1361806574,
"47": 1364581310,
"48": 1364551150,
"49": 1364916158,
"50": 1364529662,
"51": 1632026766,
"52": 1364588798,
"53": 1631955550,
"54": 1631972606,
"55": 1364797086,
"56": 1364627198,
"57": 1364556446,
"58": 1632070414,
"59": 1631951758,
"60": 1364794654,
"61": 1632101166,
"62": 1361810574,
"63": 1114573589,
"64": 1361967886,
"65": 1632544222,
"66": 1111582085,
"67": 1362569438,
"68": 1364593198,
"69": 1364761406,
"70": 1631927918,
"71": 1364544414,
"72": 1362264958,
"73": 1364767006,
"74": 1364590110,
"75": 1362082334,
"76": 1364799166,
"77": 1632028398,
"78": 1361970078,
"79": 1364485118,
"80": 1364490846,
"81": 1632150846,
"82": 1362569342,
"83": 1362599998,
"84": 1632523854,
"85": 1364765134,
"86": 1631952062,
"87": 1364559822,
"88": 1364783854,
"89": 1362081950,
"90": 1111644021,
"91": 1631959326,
"92": 1364901422,
"93": 1632100830,
"94": 1111707429,
"95": 1632026702,
"96": 1362569022,
"97": 1114560181,
"98": 1364588510,
"99": 1364785486,
"100": 1361969950
}

34
SW/PC/Stopwatch/results.json Normal file
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{
"2": "0:35:59.818971",
"29": "1:10:52.076408",
"14": "1:11:35.670162",
"9": "1:14:40",
"10": "1:16:02.174205",
"12": "1:18:12.521345",
"26": "1:21:24.962008",
"8": "1:23:45.241021",
"5": "1:24:33.080748",
"3": "1:25:36.486060",
"25": "1:26:57.409779",
"27": "1:32:49.493213",
"18": "1:35:04.610546",
"6": "1:35:28.914085",
"21": "1:35:29.494112",
"28": "1:37:56.900763",
"13": "1:39:20.394593",
"17": "1:39:59.664271",
"4": "1:40:15.602185",
"15": "1:41:16.795669",
"20": "1:43:29.166855",
"16": "1:48:28.014745",
"19": "1:48:37.692711",
"30": "1:48:51.712639",
"11": "1:48:56.350571",
"22": "1:49:04.450512",
"31": "2:05:10.107744",
"24": "2:05:33.883454",
"7": "2:05:42.955540",
"32": "2:06:17.053222",
"23": "2:11:50.391043",
"1": "2:24:50.507501"
}

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SW/PC/Stopwatch/rfid_read.py Normal file
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import usb.core
import usb.util
import time
import requests
import json
USB_IF = 0 # Interface
USB_TIMEOUT = 5 # Timeout in MS
USB_VENDOR = 0xffff # Vendor-ID:
USB_PRODUCT = 0x0035 # Product-ID
# Find the HID device by vender/product ID
dev = usb.core.find(idVendor=USB_VENDOR, idProduct=USB_PRODUCT)
# Get and store the endpoint
endpoint = dev[0][(0,0)][0]
if dev.is_kernel_driver_active(USB_IF) is True:
dev.detach_kernel_driver(USB_IF)
# Claim the device
usb.util.claim_interface(dev, USB_IF)
receivedNumber = 0
while True:
control = None
try:
# Read a character from the device
control = dev.read(endpoint.bEndpointAddress, endpoint.wMaxPacketSize, USB_TIMEOUT)
# Here you have to analyze what's coming in.
# In my case you had to check the first byte (command)
if (control[2] != 40) & (control[2] != 0):
# Convert ascii to a number, there's probably better ways to do so.
receivedDigit = control[2] - 29
if receivedDigit == 10:
receivedDigit = 0
# Append the digit to the number
receivedNumber = 10 * receivedNumber + receivedDigit
# Check if the received character is CRLF
if (( control[0] == 0 )) & (( control[2] == 40 )) & (( not receivedNumber == 0 )):
print('cardNumber:', receivedNumber)
except KeyboardInterrupt:
exit()
except:
pass
time.sleep(0.001) # Let CTRL+C actually exit

2
SW/PC/Stopwatch/run.sh Executable file
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#!/bin/bash
GTK_THEME=Adwaita:light python ./main.py

110
SW/PC/Stopwatch/start_finish_stopwatch.py Normal file
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import threading
import time
import usb.core
import usb.util
import requests
import json
import datetime
DEBUG = False
if DEBUG == True:
index = 2
else:
index = 1
activeCards = []
TIME = 600
USB_IF = 0 # Interface
USB_TIMEOUT = 5 # Timeout in ms
USB_VENDOR = 0xffff # Vendor-ID:
USB_PRODUCT = 0x0035 # Product-ID
with open('people.json', 'r') as f:
db = json.load(f)
try:
times = {}
with open('times.json', 'r') as f:
times_json = json.load(f)
for i in times_json:
times[i] = {}
times[i]['start'] = datetime.datetime.strptime(times_json[i]['start'],"%d/%m/%Y, %H:%M:%S")
try:
times[i]['end'] = datetime.datetime.strptime(times_json[i]['end'],"%d/%m/%Y, %H:%M:%S")
times[i]['duration'] = times[i]['end'] - times[i]['start']
except:
print(i, "Not finished yet")
print(times)
except Exception as e: print(e)
#except:
# times = {}
# times_json = {}
class UsbCardReader():
def __init__(self, **kargs):
# Find the HID device by vendor/product ID
self.dev = usb.core.find(idVendor=USB_VENDOR, idProduct=USB_PRODUCT)
# Get and store the endpoint
self.endpoint = self.dev[0][(0,0)][0]
if self.dev.is_kernel_driver_active(USB_IF) is True:
self.dev.detach_kernel_driver(USB_IF)
# Claim the device
usb.util.claim_interface(self.dev, USB_IF)
self.receivedNumber = 0
cardread=threading.Thread(target=self.read)
cardread.start()
def read(self):
global activeCards, db, times, times_json
print("Waiting for card")
receivedNumber = 0
while True:
control = None
try:
control = self.dev.read(self.endpoint.bEndpointAddress, self.endpoint.wMaxPacketSize, USB_TIMEOUT)
if (control[2] != 40) & (control[2] != 0):
receivedDigit = control[2] - 29
if receivedDigit == 10:
receivedDigit = 0
receivedNumber = 10 * receivedNumber + receivedDigit
if (( control[0] == 0 )) & (( control[2] == 40 )) & (( not receivedNumber == 0 )):
try:
with open('people.json', 'r') as f:
db = json.load(f)
for i in db:
if db[i] == receivedNumber:
print("Runner:", i)
print(db)
runner_found = False
for j in times:
if j == i:
runner_found = True
times[j]['end'] = datetime.datetime.now()
times[j]['duration'] = times[j]['end'] - times[j]['start']
times_json[j]['end'] = times[j]['end'].strftime("%d/%m/%Y, %H:%M:%S")
times_json[j]['duration'] = str(times[j]['duration'])
if runner_found == False:
times[i] = {}
times[i]['start'] = datetime.datetime.now()
times_json[i] = {}
times_json[i]['start'] = times[i]['start'].strftime("%d/%m/%Y, %H:%M:%S")
with open("times.json", 'w') as f:
f.write(json.dumps(times_json, indent = 4))
print(times)
except Exception as e: print(e)
receivedNumber = 0
except KeyboardInterrupt:
exit()
except:
pass
time.sleep(0.001)
UsbCardReader()

20
SW/PC/Stopwatch/style.css Normal file
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#lightgrid {
background-color: #F0F0F0;
}
#darkgrid {
background-color: #D0D0D0;
}
#lredgrid {
background-color: #FF8888;
}
#dredgrid {
background-color: #FF6666;
}
#gridlabel {
font-size: 16pt;
font-weight: bold;
}

160
SW/PC/Stopwatch/times.json Normal file
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@@ -0,0 +1,160 @@
{
"1": {
"start": "31/05/2025, 10:00:08",
"end": "31/05/2025, 12:24:58",
"duration": "2:24:50.507501"
},
"2": {
"start": "31/05/2025, 10:05:37",
"end": "31/05/2025, 10:41:37",
"duration": "0:35:59.818971"
},
"3": {
"start": "31/05/2025, 10:10:09",
"end": "31/05/2025, 11:35:45",
"duration": "1:25:36.486060"
},
"4": {
"start": "31/05/2025, 10:15:14",
"end": "31/05/2025, 11:55:30",
"duration": "1:40:15.602185"
},
"5": {
"start": "31/05/2025, 10:20:08",
"end": "31/05/2025, 11:44:41",
"duration": "1:24:33.080748"
},
"6": {
"start": "31/05/2025, 10:25:01",
"end": "31/05/2025, 12:00:30",
"duration": "1:35:28.914085"
},
"7": {
"start": "31/05/2025, 10:30:01",
"end": "31/05/2025, 12:35:44",
"duration": "2:05:42.955540"
},
"8": {
"start": "31/05/2025, 10:35:05",
"end": "31/05/2025, 11:58:50",
"duration": "1:23:45.241021"
},
"9": {
"start": "31/05/2025, 10:39:57"
},
"10": {
"start": "31/05/2025, 10:42:01",
"end": "31/05/2025, 11:58:03",
"duration": "1:16:02.174205"
},
"11": {
"start": "31/05/2025, 10:45:03",
"end": "31/05/2025, 12:33:59",
"duration": "1:48:56.350571"
},
"12": {
"start": "31/05/2025, 10:49:58",
"end": "31/05/2025, 12:08:10",
"duration": "1:18:12.521345"
},
"13": {
"start": "31/05/2025, 10:55:01",
"end": "31/05/2025, 12:34:21",
"duration": "1:39:20.394593"
},
"14": {
"start": "31/05/2025, 10:59:57",
"end": "31/05/2025, 12:11:33",
"duration": "1:11:35.670162"
},
"15": {
"start": "31/05/2025, 11:05:09",
"end": "31/05/2025, 12:46:25",
"duration": "1:41:16.795669"
},
"16": {
"start": "31/05/2025, 11:10:01",
"end": "31/05/2025, 12:58:29",
"duration": "1:48:28.014745"
},
"17": {
"start": "31/05/2025, 11:15:00",
"end": "31/05/2025, 12:55:00",
"duration": "1:39:59.664271"
},
"18": {
"start": "31/05/2025, 11:20:01",
"end": "31/05/2025, 12:55:05",
"duration": "1:35:04.610546"
},
"19": {
"start": "31/05/2025, 11:25:00",
"end": "31/05/2025, 13:13:38",
"duration": "1:48:37.692711"
},
"20": {
"start": "31/05/2025, 11:29:58",
"end": "31/05/2025, 13:13:27",
"duration": "1:43:29.166855"
},
"21": {
"start": "31/05/2025, 11:35:30",
"end": "31/05/2025, 13:11:00",
"duration": "1:35:29.494112"
},
"22": {
"start": "31/05/2025, 11:40:02",
"end": "31/05/2025, 13:29:06",
"duration": "1:49:04.450512"
},
"23": {
"start": "31/05/2025, 11:44:59",
"end": "31/05/2025, 13:56:49",
"duration": "2:11:50.391043"
},
"24": {
"start": "31/05/2025, 11:50:45",
"end": "31/05/2025, 13:56:19",
"duration": "2:05:33.883454"
},
"25": {
"start": "31/05/2025, 11:55:04",
"end": "31/05/2025, 13:22:02",
"duration": "1:26:57.409779"
},
"26": {
"start": "31/05/2025, 12:00:00",
"end": "31/05/2025, 13:21:24",
"duration": "1:21:24.962008"
},
"27": {
"start": "31/05/2025, 12:05:01",
"end": "31/05/2025, 13:37:51",
"duration": "1:32:49.493213"
},
"28": {
"start": "31/05/2025, 12:10:03",
"end": "31/05/2025, 13:48:00",
"duration": "1:37:56.900763"
},
"29": {
"start": "31/05/2025, 12:14:58",
"end": "31/05/2025, 13:25:50",
"duration": "1:10:52.076408"
},
"30": {
"start": "31/05/2025, 12:20:02",
"end": "31/05/2025, 14:08:54",
"duration": "1:48:51.712639"
},
"31": {
"start": "31/05/2025, 12:50:10",
"end": "31/05/2025, 14:55:20",
"duration": "2:05:10.107744"
},
"32": {
"start": "31/05/2025, 12:50:13",
"end": "31/05/2025, 14:56:30",
"duration": "2:06:17.053222"
}
}

84
SW/PC/Stopwatch/zapis_zavodniku.py Normal file
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import time
import usb.core
import usb.util
import requests
import json
import threading
USB_IF = 0 # Interface
USB_TIMEOUT = 5 # Timeout in ms
USB_VENDOR = 0xffff # Vendor-ID:
USB_PRODUCT = 0x0035 # Product-ID
activeCards = {}
try:
with open('people.json', 'r') as f:
activeCards = json.load(f)
except:
print("No people.json found")
class UsbCardReader():
def __init__(self, **kargs):
# Find the HID device by vendor/product ID
self.dev = usb.core.find(idVendor=USB_VENDOR, idProduct=USB_PRODUCT)
# Get and store the endpoint
self.endpoint = self.dev[0][(0,0)][0]
if self.dev.is_kernel_driver_active(USB_IF) is True:
self.dev.detach_kernel_driver(USB_IF)
# Claim the device
usb.util.claim_interface(self.dev, USB_IF)
self.receivedNumber = 0
def read(self):
global activeCards
print("Priloz kartu")
while True:
control = None
try:
control = self.dev.read(self.endpoint.bEndpointAddress, self.endpoint.wMaxPacketSize, USB_TIMEOUT)
if (control[2] != 40) & (control[2] != 0):
receivedDigit = control[2] - 29
if receivedDigit == 10:
receivedDigit = 0
self.receivedNumber = 10 * self.receivedNumber + receivedDigit
if (( control[0] == 0 )) & (( control[2] == 40 )) & (( not self.receivedNumber == 0 )):
try:
cardPresent = False
for i in activeCards:
if activeCards[i] == self.receivedNumber:
cardPresent = True
break
if cardPresent == False:
assign=threading.Thread(target=self.assign)
assign.start()
else:
print("Naramek jiz zaregistrovan")
self.receivedNumber = 0
print("Priloz kartu")
except Exception as e: print(e)
except KeyboardInterrupt:
exit()
except:
pass
time.sleep(0.001)
def assign(self):
global activeCards
n = input("Cislo zavodnika: ")
activeCards[str(n)] = self.receivedNumber
with open('people.json', 'w') as f:
f.write(json.dumps(activeCards, indent = 4))
self.receivedNumber = 0
print("Ulozeno, priloz kartu")
if __name__ == "__main__":
reader = UsbCardReader()
print("Zapis zavodniku ready")
reader.read()

27
SW/RPi_Pico_Button/main.py
View File

@@ -12,6 +12,8 @@ BRIGHTNESS = 0.2 # Adjust the brightness (0.0 - 1.0)
led_strip = neopixel.NeoPixel(Pin(ws_pin), led_num) led_strip = neopixel.NeoPixel(Pin(ws_pin), led_num)
push_button = Pin(24, Pin.IN, Pin.PULL_UP) push_button = Pin(24, Pin.IN, Pin.PULL_UP)
buzzer = Pin(3, Pin.OUT)
led = Pin(25, Pin.OUT)
pushbutton_pressed = 0 pushbutton_pressed = 0
blink_interrupted = 0 blink_interrupted = 0
@@ -80,19 +82,24 @@ def blink_and_beep(times):
blink_delay = 0.2 blink_delay = 0.2
#insert beep #insert beep
buzzer.value(1)
for i in range(0, times): for i in range(0, times):
set_neopixel_color(255, 0, 0) set_neopixel_color(255, 0, 0)
buzzer.value(0)
time.sleep(blink_delay) time.sleep(blink_delay)
set_neopixel_color(0, 0, 0) set_neopixel_color(0, 0, 0)
buzzer.value(1)
time.sleep(blink_delay) time.sleep(blink_delay)
if pushbutton_pressed == 1: if pushbutton_pressed == 1:
pushbutton_pressed = 0 pushbutton_pressed = 0
blink_interrupted = 1 blink_interrupted = 1
i = times i = times
buzzer.value(0)
return return
buzzer.value(0)
ten_min_timer = 0 ten_min_timer = 0
ten_min_timer_led_index = 0 ten_min_timer_led_index = 11
def count_10_min(): def count_10_min():
global ten_min_timer, ten_min_timer_led_index, pushbutton_pressed, blink_interrupted global ten_min_timer, ten_min_timer_led_index, pushbutton_pressed, blink_interrupted
@@ -107,7 +114,7 @@ def count_10_min():
if (ten_min_timer % 60) == 0: if (ten_min_timer % 60) == 0:
if ten_min_timer_led_index == 10: if ten_min_timer_led_index == 10:
pushbutton_pressed = 0 pushbutton_pressed = 0
blink_and_beep(60) blink_and_beep(15)
if blink_interrupted == 1: if blink_interrupted == 1:
blink_interrupted = 0 blink_interrupted = 0
return return
@@ -135,6 +142,22 @@ def button_callback(push_button):
set_neopixel_color(0,0,0) set_neopixel_color(0,0,0)
push_button.irq(trigger=Pin.IRQ_FALLING, handler=button_callback) push_button.irq(trigger=Pin.IRQ_FALLING, handler=button_callback)
green = (0, 255, 0)
green = set_neopixel_brightness(green)
led_strip[0] = green
led_strip[2] = green
led_strip[4] = green
led_strip[6] = green
led_strip[8] = green
led_strip.write()
led_state = False
while True: while True:
count_10_min() count_10_min()
time.sleep(1) time.sleep(1)
if led_state:
led.low()
led_state = False
else:
led.high()
led_state = True