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base: Jukebox:997dc064e6815c54e3baa5e9a675c21ecd239116
Branches Tags
Jukebox:main Jukebox:dthomas_meilisearch Jukebox:dthomas-db
Jukebox:labelgenv0.2 Jukebox:labelgenv0.1
...
compare: Jukebox:dthomas_meilisearch
Branches Tags
Jukebox:main Jukebox:dthomas_meilisearch Jukebox:dthomas-db
Jukebox:labelgenv0.2 Jukebox:labelgenv0.1

70 Commits
997dc064e6 ... dthomas_me

Author SHA1 Message Date
Dustin Thomas
5ef8795eb4 Merge branch 'main' into dthomas_meilisearch 
# Conflicts:
#	.gitignore
#	read_datasheet.py
 2024-03-12 16:13:41 -05:00
Dustin Thomas
a63faba2aa Add checks to updating filterable attributes to avoid hitting weird edge cases 2024-03-12 16:08:47 -05:00
Cole Deck
dd0ac46662 Improve search & parsing algorithm, easier to source venv files 2024-03-11 23:52:26 -05:00
Lucas
1a07501d53 Edited test site and added ping 2024-03-09 20:13:43 -06:00
Lucas
0b97079cfd Created Notes, Edited websocket_test.html 2024-03-08 21:35:21 -06:00
Lucas
a6d557d1c6 Changes to install files for Ubuntu and added *.png to .gitignore 2024-03-08 20:31:22 -06:00
Cole Deck
5a11acfa42 Add basic LED animations 2024-03-08 19:45:45 -06:00
Dustin Thomas
0f2c19e811 Merge remote-tracking branch 'origin/dthomas_meilisearch' into dthomas_meilisearch 2024-03-08 19:13:03 -06:00
Dustin Thomas
b18355fc14 nuke database.py 2024-03-08 19:12:41 -06:00
BlueOceanWave
6921d5c4b4 Added ipywidgets requirement 2024-03-06 11:00:24 -06:00
BlueOceanWave
b861a61f07 Merge branch 'main' of https://git.myitr.org/Jukebox/jukebox-software 2024-03-05 16:30:26 -06:00
BlueOceanWave
925ceb4b5a Commented jupytr notebook 2024-03-05 16:30:19 -06:00
BlueOceanWave
dd2559130d Commented jupytr notebook 2024-03-05 16:27:48 -06:00
BlueOceanWave
1fa7654da5 removed temp file 2024-03-05 16:21:07 -06:00
BlueOceanWave
051cc1d003 Merge branch 'main' of https://git.myitr.org/Jukebox/jukebox-software 2024-03-05 16:20:11 -06:00
BlueOceanWave
e1af00e1db Inverse kinematics complete 2024-03-05 16:20:05 -06:00
Dustin Thomas
aadb6ba24d add search functions to JukeboxSearch 2024-03-01 21:24:37 -06:00
Dustin Thomas
4561b1c1a3 fix error when index does not exist 2024-03-01 20:37:22 -06:00
Dustin Thomas
6edd0b4ef0 fix map datatype 2024-03-01 20:37:02 -06:00
Dustin Thomas
2c242aac29 Merge branch 'main' into dthomas_meilisearch 2024-03-01 19:26:57 -06:00
Cole Deck
af6ffe451d Fix get_specs 2024-03-01 19:26:47 -06:00
Dustin Thomas
b585f8cdb7 Merge branch 'main' into dthomas_meilisearch 2024-03-01 19:25:30 -06:00
Cole Deck
50bf835d13 Update parsing and stuff 2024-03-01 19:25:01 -06:00
Dustin Thomas
f12d8a8062 add print statement 2024-03-01 19:24:47 -06:00
Dustin Thomas
fc9ff4c8b2 split lists if they contain more than 2 commas 2024-03-01 19:13:28 -06:00
Dustin Thomas
e903150fd4 Add functions for connecting to Meilisearch and adding documents 2024-02-20 10:33:01 -06:00
Dustin Thomas
d0ea696274 reorganize gitignore and add comments 2024-02-20 10:15:56 -06:00
Dustin Thomas
eea8c9f5fa Merge branch 'main' into dthomas_meilisearch 2024-02-20 10:04:33 -06:00
Cole Deck
fe5de4e54c Adjust datasheet parsing for meilisearch, add dockerfile 2024-02-17 23:08:21 -06:00
Dustin Thomas
68b95bfe17 add a module for using meilisearch 2024-02-17 22:46:11 -06:00
Dustin Thomas
e3e9b855f9 add compose file with meilisearch image 2024-02-17 22:45:30 -06:00
Cole Deck
523915feb0 add partnum to parsing 2024-02-17 20:31:43 -06:00
Cole Deck
b5b2a936c1 Switch to binary dependency 2024-02-17 20:25:51 -06:00
Cole Deck
afd144bd32 FIx requirements.txt 2024-02-17 20:22:54 -06:00
Cole Deck
eb221a5206 Create main runner app, with async multithreading 2024-02-17 20:21:42 -06:00
Cole Deck
0299b3877d Add video abstraction class 2024-02-17 20:16:32 -06:00
BlueOceanWave
fc6baa8826 Added system exit 2024-02-17 20:16:32 -06:00
Cole Deck
20a970025d Add keyboard control scripts, add websocket server 2024-02-17 20:16:32 -06:00
Cole Deck
0d597a1866 Add LED array mapping, load base config for tabletop rings, and image/video player mode 2024-02-17 20:16:32 -06:00
Cole Deck
329c3e5108 More logging 2024-02-17 20:16:31 -06:00
Cole Deck
13b1c87b94 Make firefox start faster, verbose start 2024-02-17 20:16:31 -06:00
Cole Deck
2a9a6c1576 Working network test 2024-02-17 20:16:31 -06:00
Cole Deck
c3fc682123 test server/client setup 2024-02-17 20:16:31 -06:00
Cole Deck
0bbfa2d49c Add basic windows control system. Needs VM functional to continue 2024-02-17 20:16:31 -06:00
Cole Deck
9ac8f95982 Add local loading page 2024-02-17 20:16:31 -06:00
Cole Deck
3371f4031c Create main runner app, with async multithreading 2024-02-17 20:16:29 -06:00
Cole Deck
d30831fc55 test rendering json in HTML table format 2024-02-17 20:12:27 -06:00
Cole Deck
1659d38726 Add UR5 control test, datasheet JSON output 2024-02-17 20:12:27 -06:00
Cole Deck
db7c8c4577 Add video abstraction class 2024-02-17 20:06:37 -06:00
BlueOceanWave
21b1bf7992 Added system exit 2024-02-16 20:36:43 -06:00
Cole Deck
d376dba67c Add keyboard control scripts, add websocket server 2024-02-08 12:35:30 -06:00
Cole Deck
95631dbdbe Add LED array mapping, load base config for tabletop rings, and image/video player mode 2024-01-25 20:06:10 -06:00
Cole Deck
9aef296763 More logging 2024-01-18 16:45:37 -06:00
Cole Deck
2b287492de Make firefox start faster, verbose start 2024-01-18 16:41:57 -06:00
Cole Deck
d2a4d93590 Working network test 2024-01-18 16:35:02 -06:00
Cole Deck
58605dbe85 test server/client setup 2024-01-18 16:00:12 -06:00
Cole Deck
7bf3276ce9 Add basic windows control system. Needs VM functional to continue 2024-01-17 20:14:20 -06:00
Cole Deck
818688452b Add local loading page 2024-01-17 16:46:20 -06:00
Cole Deck
01526524d4 Create main runner app, with async multithreading 2024-01-17 16:06:15 -06:00
Cole Deck
33671683ea test rendering json in HTML table format 2024-01-17 09:23:06 -06:00
Cole Deck
fad885c610 Add UR5 control test, datasheet JSON output 2024-01-16 17:27:55 -06:00
Dustin Thomas
75fad013c0 get column parity implemented 2024-01-14 15:36:15 -06:00
Dustin Thomas
bb19158aa0 start implementing column parity 2024-01-14 15:25:57 -06:00
Dustin Thomas
941ebc4a24 add a function to convert a tuple into a dictionary 2024-01-14 15:25:45 -06:00
Dustin Thomas
cfa45fc970 some docstring things 2024-01-14 15:25:08 -06:00
Dustin Thomas
4a4e969e0f add basic write functionality 2024-01-14 14:41:43 -06:00
Dustin Thomas
72831a8e1d write read functionality 2024-01-14 14:25:25 -06:00
Dustin Thomas
83f1dc6a9f make the DBConnector class usable as a standalone object or in a context manager 2024-01-14 14:16:03 -06:00
Dustin Thomas
1ef515e265 setup defaults for environment variables (configured for a locally running Postgres docker with default config) 2024-01-14 14:14:12 -06:00
Dustin Thomas
e3d8a31285 get the query to return results, or an empty list if any error occurs 2024-01-14 13:53:34 -06:00
35 changed files with 4087 additions and 140 deletions
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15
.gitignore vendored
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@@ -1,3 +1,18 @@
# python
venv
__pycache__
# cable data folder(s)
cables
cables-sample.zip
# meilisearch (mainly where I've put the data volume for the container)
meili_data
# IDE things
.vscode
.idea
# videos
*.webm
output.mp4
# log files
output.log
# images
*.png

11
Dockerfile Normal file
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@@ -0,0 +1,11 @@
FROM python:latest
RUN apt-get update && apt-get install -y libgl1-mesa-glx ghostscript && apt-get clean && rm -rf /var/lib/apt/lists
COPY . .
#COPY config-server.yml config.yml
RUN pip3 install -r requirements.txt
CMD ["python3", "run.py"]
EXPOSE 5000
EXPOSE 8000
EXPOSE 9000

BIN
badapple.mp4 Normal file
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Binary file not shown.

166
banner_ivu_export.py Executable file
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#!/usr/bin/env python3
import socket
from datetime import datetime
from time import sleep
from util import fprint
"""
from: https://github.com/MoisesBrito31/ve_data_log/blob/main/serverContagem/VE/drive.py
(no license)
(partially) adapted to English language & iVu camera instead of classic VE by Cole Deck
"""
def gravaLog(ip="1",tipo="Evento", msg="", file="log_imagem.txt"):
# removed full logging
fprint(msg)
class DriveImg():
HEADERSIZE = 100
ip = "192.168.0.1"
port = 32200
onLine = False
def __init__(self, ip, port, pasta = "media/"):
self.pasta = pasta
self.ip=ip
self.port = port
self.trans = socket.socket(socket.AF_INET,socket.SOCK_STREAM)
self.trans.settimeout(5)
fprint("Trying to connect...")
try:
self.trans.connect((self.ip,self.port))
self.onLine = True
fprint("Camera Online")
#self.trans.close()
except:
self.onLine = False
fprint("Offline")
def read_img(self):
resposta = 'Falha'
try:
if not self.onLine:
#print(f'tentando Conectar camera {self.ip}...')
gravaLog(ip=self.ip,msg=f'Trying to connect...')
sleep(2)
try:
self.trans = socket.socket(socket.AF_INET,socket.SOCK_STREAM)
self.trans.connect((self.ip,self.PORT))
self.onLine = True
gravaLog(ip=self.ip,msg=f'Connection established.')
except:
self.onLine = False
self.trans.close()
return resposta
ret = self.trans.recv(64)
try:
valida = str(ret[0:15].decode('UTF-8'))
#print(valida)
if valida.find("TC IMAGE")<0:
self.onLine = False
self.trans.close()
sleep(2)
gravaLog(ip=self.ip,tipo="Falha",msg=f'Unable to find TC IMAGE bookmark')
return "Error"
except Exception as ex:
self.onLine = False
self.trans.close()
sleep(2)
gravaLog(ip=self.ip,tipo="Falha",msg=f'Error - {str(ex)}')
return "Error"
if ret:
frame = int.from_bytes(ret[24:27],"little")
isJpeg = int.from_bytes(ret[32:33],"little")
img_size = int.from_bytes(ret[20:23],"little")
data = self.trans.recv(5000)
while img_size>len(data) and ret:
ret = self.trans.recv(10000)
if ret:
data = data+ret
#print(f'{len(ret)}b dados recebidos, total de: {len(data)+64}b')
else:
gravaLog(ip=self.ip,tipo="Falha",msg="Unable to recieve the image")
self.onLine = False
return "Unable to recieve the image"
hoje = datetime.now()
idcam = self.ip.split('.')
"""try:
nomeFile = f'{hoje.day}{hoje.month}{hoje.year}-{idcam[3]}-{frame}'
if isJpeg==1:
file = open(f'{self.pasta}{nomeFile}.jpg','wb')
nomeFile = f'{nomeFile}.jpg'
else:
file = open(f'{self.pasta}{nomeFile}.bmp','wb')
nomeFile = f'{nomeFile}.bmp'
file.write(data)
file.close()
except Exception as ex:
sleep(2)
gravaLog(ip=self.ip,tipo="Falha",msg=f'Error - {str(ex)}')
return "Falha"
"""
if isJpeg==1:
return "jpeg",data
else:
return "bmp",data
except Exception as ex:
gravaLog(ip=self.ip,tipo="Falha Generica",msg=f'Error - {str(ex)}')
#print(f'erro {str(ex)}')
self.onLine = False
self.trans.close()
sleep(2)
return resposta
class DriveData():
HEADERSIZE = 100
ip = "192.168.0.1"
port = 32100
onLine = False
def __init__(self, ip, port):
gravaLog(ip=self.ip,msg=f'iniciou drive',file="log_data.txt")
self.ip=ip
self.port = port
self.trans = socket.socket(socket.AF_INET,socket.SOCK_STREAM)
try:
self.trans.connect((self.ip,self.port))
self.onLine = True
except:
self.onLine = False
def read_data(self):
resposta = 'falha'
try:
if not self.onLine:
#print(f'tentando Conectar...\n')
gravaLog(ip=self.ip,msg=f'tentando Conectar...',file="log_data.txt")
sleep(2)
try:
self.trans = socket.socket(socket.AF_INET,socket.SOCK_STREAM)
self.trans.connect((self.ip,self.PORT))
self.onLine = True
gravaLog(ip=self.ip,msg=f'Conexão restabelecida...',file="log_data.txt")
except:
self.onLine = False
return resposta
resposta = self.trans.recv(self.HEADERSIZE).decode("utf-8")
resposta = str(resposta).split(',')
return resposta
except Exception as ex:
self.onLine = False
gravaLog(ip=self.ip,tipo="Falha Generica",msg=f'erro {str(ex)}',file="log_data.txt")
sleep(2)
return resposta
if __name__ == "__main__":
test = DriveImg("192.168.1.125", 32200)
x = 0
while x < 100:
x=x+1
imgtype, img = test.read_img()

13
compose.yml Normal file
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@@ -0,0 +1,13 @@
services:
meilisearch:
image: "getmeili/meilisearch:v1.6.2"
ports:
- "7700:7700"
environment:
MEILI_MASTER_KEY: fluffybunnyrabbit
MEILI_NO_ANALYTICS: true
volumes:
- "meili_data:/meili_data"
volumes:
meili_data:

535
config.yml Normal file
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core:
mode: linuxserver
serverip: 172.26.178.114
clientip: 172.26.176.1
server: Hyper-Vd
arm:
ip: 192.168.1.145
#cable_map:
cameras:
banner:
ip: 192.168.1.125
port: 32200
led:
fps: 90
timeout: 0
controllers:
- universe: 9
ip: 192.168.68.131
ledstart: 0
ledend: 143
mode: rgb
- universe: 3
ip: 192.168.68.131
ledstart: 144
ledend: 287
mode: rgb
- universe: 2
ip: 192.168.68.131
ledstart: 288
ledend: 431
mode: rgb
- universe: 4
ip: 192.168.5.40
ledstart: 432
ledend: 575
mode: rgb
- universe: 1
ip: 192.168.5.4
ledstart: 576
ledend: 719
mode: rgb
- universe: 5
ip: 192.168.68.131
ledstart: 720
ledend: 863
mode: rgb
- universe: 6
ip: 192.168.68.131
ledstart: 864
ledend: 1007
mode: rgb
- universe: 7
ip: 192.168.68.131
ledstart: 1008
ledend: 1151
mode: rgb
- universe: 8
ip: 192.168.68.131
ledstart: 1152
ledend: 1295
mode: rgb
- universe: 0
ip: 192.168.68.130
ledstart: 1296
ledend: 1365
mode: rgbw
map:
# total for 54x rings: 1296 LEDs (0-1295), 24 ea
# controller 1
- type: circle
start: 0
size: 24
diameter: 63.5
angle: 0
pos: [0, 304.8]
- type: circle
start: 24
size: 24
diameter: 63.5
angle: 0
pos: [-65.991, 266.7]
- type: circle
start: 48
size: 24
diameter: 63.5
angle: 0
pos: [-131.982, 228.6]
- type: circle
start: 72
size: 24
diameter: 63.5
angle: 0
pos: [-197.973, 190.5]
- type: circle
start: 96
size: 24
diameter: 63.5
angle: 0
pos: [-263.965, 152.4]
- type: circle
start: 120
size: 24
diameter: 63.5
angle: 0
pos: [-263.965, 76.2]
# controller 2
- type: circle
start: 144
size: 24
diameter: 63.5
angle: 0
pos: [0, 228.6]
- type: circle
start: 168
size: 24
diameter: 63.5
angle: 0
pos: [-65.991, 190.5]
- type: circle
start: 192
size: 24
diameter: 63.5
angle: 0
pos: [-131.982, 152.4]
- type: circle
start: 216
size: 24
diameter: 63.5
angle: 0
pos: [-197.973, 114.3]
- type: circle
start: 240
size: 24
diameter: 63.5
angle: 0
pos: [-197.973, 38.1]
- type: circle
start: 264
size: 24
diameter: 63.5
angle: 0
pos: [-263.965, 0]
# controller 3
- type: circle
start: 288
size: 24
diameter: 63.5
angle: 0
pos: [0, 152.4]
- type: circle
start: 312
size: 24
diameter: 63.5
angle: 0
pos: [-65.991, 114.3]
- type: circle
start: 336
size: 24
diameter: 63.5
angle: 0
pos: [-131.982, 76.2]
- type: circle
start: 360
size: 24
diameter: 63.5
angle: 0
pos: [-131.982, 0]
- type: circle
start: 384
size: 24
diameter: 63.5
angle: 0
pos: [-197.973, -38.1]
- type: circle
start: 408
size: 24
diameter: 63.5
angle: 0
pos: [-263.965, -76.2]
# controller 4
- type: circle
start: 432
size: 24
diameter: 63.5
angle: 0
pos: [131.982, 76.2]
- type: circle
start: 456
size: 24
diameter: 63.5
angle: 0
pos: [131.982, 152.4]
- type: circle
start: 480
size: 24
diameter: 63.5
angle: 0
pos: [131.982, 228.6]
- type: circle
start: 504
size: 24
diameter: 63.5
angle: 0
pos: [65.991, 266.7]
- type: circle
start: 528
size: 24
diameter: 63.5
angle: 0
pos: [65.991, 190.5]
- type: circle
start: 552
size: 24
diameter: 63.5
angle: 0
pos: [65.991, 114.3]
# controller 5
- type: circle
start: 576
size: 24
diameter: 63.5
angle: 0
pos: [131.982, 0]
- type: circle
start: 600
size: 24
diameter: 63.5
angle: 0
pos: [197.973, 38.1]
- type: circle
start: 624
size: 24
diameter: 63.5
angle: 0
pos: [197.973, 114.3]
- type: circle
start: 648
size: 24
diameter: 63.5
angle: 0
pos: [197.973, 190.5]
- type: circle
start: 672
size: 24
diameter: 63.5
angle: 0
pos: [263.965, 152.4]
- type: circle
start: 696
size: 24
diameter: 63.5
angle: 0
pos: [263.965, 76.2]
# controller 6
- type: circle
start: 720
size: 24
diameter: 63.5
angle: 0
pos: [131.982, -76.2]
- type: circle
start: 744
size: 24
diameter: 63.5
angle: 0
pos: [197.973, -38.1]
- type: circle
start: 768
size: 24
diameter: 63.5
angle: 0
pos: [263.965, 0]
- type: circle
start: 792
size: 24
diameter: 63.5
angle: 0
pos: [263.965, -76.2]
- type: circle
start: 816
size: 24
diameter: 63.5
angle: 0
pos: [263.965, -152.4]
- type: circle
start: 840
size: 24
diameter: 63.5
angle: 0
pos: [197.973, -114.3]
# controller 7
- type: circle
start: 864
size: 24
diameter: 63.5
angle: 0
pos: [65.991, -114.3]
- type: circle
start: 888
size: 24
diameter: 63.5
angle: 0
pos: [0, -152.4]
- type: circle
start: 912
size: 24
diameter: 63.5
angle: 0
pos: [-65.991, -114.3]
- type: circle
start: 936
size: 24
diameter: 63.5
angle: 0
pos: [-131.982, -76.2]
- type: circle
start: 960
size: 24
diameter: 63.5
angle: 0
pos: [-197.973, -114.3]
- type: circle
start: 984
size: 24
diameter: 63.5
angle: 0
pos: [-131.982, -152.4]
# controller 8
- type: circle
start: 1008
size: 24
diameter: 63.5
angle: 0
pos: [0, -228.6]
- type: circle
start: 1032
size: 24
diameter: 63.5
angle: 0
pos: [-65.991, -190.5]
- type: circle
start: 1056
size: 24
diameter: 63.5
angle: 0
pos: [-65.991, -266.7]
- type: circle
start: 1080
size: 24
diameter: 63.5
angle: 0
pos: [-131.982, -228.6]
- type: circle
start: 1104
size: 24
diameter: 63.5
angle: 0
pos: [-197.973, -190.5]
- type: circle
start: 1128
size: 24
diameter: 63.5
angle: 0
pos: [-263.965, -152.4]
# controller 9
- type: circle
start: 1152
size: 24
diameter: 63.5
angle: 0
pos: [0, -304.8]
- type: circle
start: 1176
size: 24
diameter: 63.5
angle: 0
pos: [65.991, -266.7]
- type: circle
start: 1200
size: 24
diameter: 63.5
angle: 0
pos: [131.982, -228.6]
- type: circle
start: 1224
size: 24
diameter: 63.5
angle: 0
pos: [197.973, -190.5]
- type: circle
start: 1248
size: 24
diameter: 63.5
angle: 0
pos: [131.982, -152.4]
- type: circle
start: 1272
size: 24
diameter: 63.5
angle: 0
pos: [65.991, -190.5]
# Strips
- type: strip
start: 1296
size: 70
length: 600
angle: 270 # down
pos: [375, 300]
global_position_offset: [0,0] # default coordinate spce below as center of arm at 0,0 - adjust if necessary
animation_time: 40
position_map:
- index: 0
pos: [-152.4, 263.965]
- index: 1
pos: [-76.2, 263.965]
- index: 2
pos: [0, 263.965]
- index: 3
pos: [76.2, 263.965]
- index: 4
pos: [152.4, 263.965]
- index: 5
pos: [-190.5, 197.973]
- index: 6
pos: [-114.3, 197.973]
- index: 7
pos: [-38.1, 197.973]
- index: 8
pos: [38.1, 197.973]
- index: 9
pos: [114.3, 197.973]
- index: 10
pos: [190.5, 197.973]
- index: 11
pos: [-228.6, 131.982]
- index: 12
pos: [-152.4, 131.982]
- index: 13
pos: [-76.2, 131.982]
- index: 14
pos: [0, 131.982]
- index: 15
pos: [76.2, 131.982]
- index: 16
pos: [152.4, 131.982]
- index: 17
pos: [228.6, 131.982]
- index: 18
pos: [-266.7, 65.991]
- index: 19
pos: [-190.5, 65.991]
- index: 20
pos: [-114.3, 65.991]
- index: 21
pos: [114.3, 65.991]
- index: 22
pos: [190.5, 65.991]
- index: 23
pos: [266.7, 65.991]
- index: 24
pos: [-304.8, 0]
- index: 25
pos: [-228.6, 0]
- index: 26
pos: [-152.4, 0]
- index: 27
pos: [152.4, 0]
- index: 28
pos: [228.6, 0]
- index: 29
pos: [304.8, 0]
- index: 30
pos: [-266.7, -65.991]
- index: 31
pos: [-190.5, -65.991]
- index: 32
pos: [-114.3, -65.991]
- index: 33
pos: [114.3, -65.991]
- index: 34
pos: [190.5, -65.991]
- index: 35
pos: [266.7, -65.991]
- index: 36
pos: [-228.6, -131.982]
- index: 37
pos: [-152.4, -131.982]
- index: 38
pos: [-76.2, -131.982]
- index: 39
pos: [0, -131.982]
- index: 40
pos: [76.2, -131.982]
- index: 41
pos: [152.4, -131.982]
- index: 42
pos: [228.6, -131.982]
- index: 43
pos: [-190.5, -197.973]
- index: 44
pos: [-114.3, -197.973]
- index: 45
pos: [-38.1, -197.973]
- index: 46
pos: [38.1, -197.973]
- index: 47
pos: [114.3, -197.973]
- index: 48
pos: [190.5, -197.973]
- index: 49
pos: [-152.4, -263.965]
- index: 50
pos: [-76.2, -263.965]
- index: 51
pos: [0, -263.965]
- index: 52
pos: [76.2, -263.965]
- index: 53
pos: [152.4, -263.965]

40
database.py
View File

@@ -1,40 +0,0 @@
import os
import psycopg2
DB_ADDRESS = os.environ['DB_ADDRESS']
DB_USER = os.environ['DB_USER']
DB_PASSWORD = os.environ['DB_PASSWORD']
DB_NAME = os.environ['DB_NAME']
class DBConnector:
"""Context managed database class. Use with statements to automatically open and close the database connection, like
so:
.. code-block:: python
with DBConnector() as db:
db.read()
"""
def __enter__(self):
self.conn = psycopg2.connect()
self.cur = self.conn.cursor()
def __exit__(self):
self.cur.close()
self.conn.close()
def _query(self, sql):
self.cur.execute(sql)
def read(self, **kwargs):
"""Read rows from a database that match the specified filters.
:param kwargs: Column constraints; i.e. what value to filter by in what column.
:returns: A list of dictionaries of all matching rows, or an empty list if no match."""
pass
def write(self, **kwargs):
"""Write a row to the database.
:param kwargs: Values to write for each database; specify each column separately!"""
pass

11
download-vid.sh Executable file
View File

@@ -0,0 +1,11 @@
#!/bin/bash
set -euxo pipefail
mkdir -p tmpdl
cd tmpdl
yt-dlp $1
ffmpeg -i * -vf "scale=800x480" -r $2 ../output.mp4
rm -rf tmpdl

311
get_specs.py
View File

@@ -5,9 +5,10 @@ import sys
import read_datasheet
from alive_progress import alive_bar
import requests
#import time
import time
import json
import subprocess
from util import fprint
bartext = ""
failed = []
@@ -25,38 +26,123 @@ def check_internet(url='https://belden.com', timeout=5):
def query_search(partnum):
"""token_url = "https://www.belden.com/coveo/rest/token?t=" + str(int(time.time()))
def query_search(partnum, source):
if source == "Belden":
token_url = "https://www.belden.com/coveo/rest/token?t=" + str(int(time.time()))
with requests.get(token_url) as r:
out = json.loads(r.content)
token = out["token"]
search_url = "https://www.belden.com/coveo/rest/search"
search_data ='{ "q": "' + str(partnum) + '", "sortCriteria": "relevancy", "numberOfResults": "250", "sortCriteria": "@catalogitemwebdisplaypriority ascending", "searchHub": "products-only-search", "pipeline": "Site Search", "maximumAge": "900000", "tab": "products-search", "locale": "en" }'
# Ridiculous search parameters extracted from website. Do not touch
search_data = r"""{ "q": "{QUERY}", "sortCriteria": "relevancy", "numberOfResults": "250", "sortCriteria": "@catalogitemwebdisplaypriority ascending", "searchHub": "products-only-search", "pipeline": "Site Search", "maximumAge": "900000", "tab": "products-search", "locale": "en", "aq": "(NOT @z95xtemplate==(ADB6CA4F03EF4F47B9AC9CE2BA53FF97,FE5DD82648C6436DB87A7C4210C7413B)) ((@syssource==\"website_001002_catalog_index-rg-nc-prod-sitecore-prod\" @catalogitemprimarycategorypublished==true)) ((@catalogitemregionavailable=Global) (@z95xlanguage==en))", "cq": "((@z95xlanguage==en) (@z95xlatestversion==1) (@source==\"Coveo_web_index - rg-nc-prod-sitecore-prod\")) OR (@source==(\"website_001002_catalog_index-rg-nc-prod-sitecore-prod\",\"website_001002_Category_index-rg-nc-prod-sitecore-prod\"))", "firstResult": "0" }, "categoryFacets": "[{\"field\":\"@catalogitemcategories\",\"path\":[],\"injectionDepth\":1000,\"maximumNumberOfValues\":6,\"delimitingCharacter\":\"|\"}]", "facetOptions": "{}", "groupBy": " [{\"field\":\"@contenttype\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[\"Products\"],\"queryOverride\":\"{QUERY}\",\"advancedQueryOverride\":\"(NOT @z95xtemplate==(ADB6CA4F03EF4F47B9AC9CE2BA53FF97,FE5DD82648C6436DB87A7C4210C7413B)) ((((((((@z95xpath=3324AF2D58F64C0FB725521052F679D2 @z95xid<>3324AF2D58F64C0FB725521052F679D2) ((@z95xpath=C292F3A37B3A4E6BAB345DF87ADDE516 @z95xid<>C292F3A37B3A4E6BAB345DF87ADDE516) @z95xtemplate==E4EFEB787BDC4B1A908EFC64D56CB2A4)) OR ((@z95xpath=723501A864754FEEB8AE377E4C710271 @z95xid<>723501A864754FEEB8AE377E4C710271) ((@z95xpath=600114EAB0E5407A84AAA9F0985B6575 @z95xid<>600114EAB0E5407A84AAA9F0985B6575) @z95xtemplate==2BE4FD6B3B2C49EBBD9E1F6C92238B05))) OR (@syssource==\\"website_001002_catalog_index-rg-nc-prod-sitecore-prod\\" @catalogitemprimarycategorypublished==true)) OR ((@z95xpath=3324AF2D58F64C0FB725521052F679D2 @z95xid<>3324AF2D58F64C0FB725521052F679D2) @z95xpath<>C292F3A37B3A4E6BAB345DF87ADDE516)) OR @syssource==\\"website_001002_Category_index-rg-nc-prod-sitecore-prod\\") NOT @z95xtemplate==(ADB6CA4F03EF4F47B9AC9CE2BA53FF97,FE5DD82648C6436DB87A7C4210C7413B))) ((@catalogitemregionavailable=Global) (@z95xlanguage==en) OR (@contenttype=(Blogs,Resources,Other)) (NOT @ez120xcludefromcoveo==1))\",\"constantQueryOverride\":\"((@z95xlanguage==en) (@z95xlatestversion==1) (@source==\\"Coveo_web_index - rg-nc-prod-sitecore-prod\\")) OR (@source==(\\"website_001002_catalog_index-rg-nc-prod-sitecore-prod\\",\\"website_001002_Category_index-rg-nc-prod-sitecore-prod\\"))\"},{\"field\":\"@catalogitembrand\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@catalogitemenvironment\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@catalogitemregionalavailability\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@prez45xtez120xt\",\"maximumNumberOfValues\":5,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@tags\",\"maximumNumberOfValues\":4,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@facetassettype\",\"maximumNumberOfValues\":3,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@facetbrand\",\"maximumNumberOfValues\":3,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@facetmarket\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@facetsolution\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@facetsearchcontentpagetype\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]}]" }"""
search_data = search_data.replace(r"{QUERY}", partnum)
#"aq": "", "cq": "((@z95xlanguage==en) (@z95xlatestversion==1) (@source==\\"Coveo_web_index - rg-nc-prod-sitecore-prod\\")) OR (@source==(\\"website_001002_catalog_index-rg-nc-prod-sitecore-prod\\",\\"website_001002_Category_index-rg-nc-prod-sitecore-prod\\"))", "firstResult": "0", "categoryFacets": "[{\\"field\\":\\"@catalogitemcategories\\",\\"path\\":[],\\"injectionDepth\\":1000,\\"maximumNumberOfValues\\":6,\\"delimitingCharacter\\":\\"|\\"}]", "facetOptions": "{}", "groupBy": "" }'
#print(search_data)
print(json.loads(search_data))
#fprint(search_data)
#fprint(json.loads(search_data))
#search_data = '{ "q": "' + str(partnum) + '" }'
print(search_data)
#fprint(search_data)
headers = headers = {
'Authorization': f'Bearer {token}',
'Content-Type': 'application/json'
}
try:
with requests.post(search_url, headers=headers, data=search_data) as r:
print(r.text)"""
a = r.text
a = json.loads(a)
idx = -1
name = ""
for partid in range(len(a["results"])):
name = a["results"][partid]["title"]
if name != partnum:
if name.find(partnum) >= 0:
idx = partid
break
elif partnum.find(name) >= 0:
idx = partid
break
# TODO: Reimplement in python
# Bash script uses some crazy json formatting that I could not figure out
# Despite the fact that I wrote it
# So I'll just leave it, becuase it works.
else:
idx = partid
break
if idx < 0:
fprint("Could not find part in API: " + partnum)
return False
fprint("Search result found: result " + str(idx) + ", for ID " + name)
#urlname = a["results"][0]["raw"]["catalogitemurlname"]
img = a["results"][idx]["raw"]["catalogitemimageurl"]
img = img[0:img.index("?")]
uri = a["results"][idx]["raw"]["clickableuri"]
dsid = a["results"][idx]["raw"]["catalogitemdatasheetid"]
brand = a["results"][idx]["raw"]["catalogitembrand"]
desc = a["results"][idx]["raw"]["catalogitemlongdesc"]
shortdesc = a["results"][idx]["raw"]["catalogitemshortdesc"]
a = json.dumps(a["results"][idx], indent=2)
#print(a, urlname, img, uri, dsurl)
out = dict()
out["url"] = "https://www.belden.com/products/" + uri
out["datasheet"] = "https://catalog.belden.com/techdata/EN/" + dsid + "_techdata.pdf"
out["brand"] = brand
out["name"] = shortdesc
out["description"] = desc
out["image"] = "https://www.belden.com" + img
out["partnum"] = name
#print(out)
return out
except:
print("falied to search with API. Falling back to datasheet lookup.")
return False
# Original bash script
# superceded by above
if source == "Belden_shell":
command = ["./query-search.sh", partnum]
result = subprocess.run(command, stdout=subprocess.PIPE, stderr=subprocess.PIPE, text=True)
if result.returncode != 0: # error
print("No results found in search database for " + partnum + ". No hi-res part image available.", result.stderr)
fprint("No results found in search database for " + partnum + ". No hi-res part image available.", result.stderr)
return False
else:
data_out = json.loads(result.stdout)
return data_out
elif source == "Alphawire":
alphaurl = "https://www.alphawire.com//sxa/search/results/?l=en&s={4A774076-6068-460C-9CC6-A2D8E85E407F}&itemid={BF82F58C-EFD9-4D8B-AE3E-097DD12CF7DA}&sig=&autoFireSearch=true&productpartnumber=*" + partnum + "*&v={B22CD56D-AB95-4048-8AA1-5BBDF2F2D17F}&p=10&e=0&o=ProductPartNumber%2CAscending"
r = requests.get(url=alphaurl)
data = r.json()
output = dict()
#print(data)
try:
if data["Count"] > 0:
#print(data["Results"][0]["Url"])
for result in data["Results"]:
if result["Url"].split("/")[-1] == partnum:
#print(partnum)
#print(result["Html"])
try:
imgidx = result["Html"].index("<img src=") + 10
imgidx2 = result["Html"].index("?", imgidx)
output["image"] = result["Html"][imgidx:imgidx2]
if output["image"].index("http") != 0:
output["image"] = ""
print("No cable image found.")
except:
print("No cable image found.")
dsidx = result["Html"].index("<a href=\"/disteAPI/") + 9
dsidx2 = result["Html"].index(partnum, dsidx) + len(partnum)
output["datasheet"] = "https://www.alphawire.com" + result["Html"][dsidx:dsidx2]
output["partnum"] = partnum
#"test".index()
#print(output)
return output
except:
return False
return False
def touch(path):
with open(path, 'a'):
@@ -64,7 +150,7 @@ def touch(path):
def get_multi(partnums):
def get_multi(partnums, delay=0.25):
with alive_bar(len(partnums) * 2, dual_line=True, calibrate=30, bar="classic2", spinner="classic") as bar:
def _try_download_datasheet(partnum, output_dir): # Guess datasheet URL
@@ -72,7 +158,7 @@ def get_multi(partnums):
sanitized_name = partnum.replace(" ", "")
url = "https://catalog.belden.com/techdata/EN/" + sanitized_name + "_techdata.pdf"
#print(url)
#fprint(url)
try:
with requests.get(url, stream=True) as r:
#r.raise_for_status()
@@ -89,10 +175,10 @@ def get_multi(partnums):
bartext = bartext + "."
bar.text = bartext
f.write(chunk)
#print("")
#fprint("")
return output_dir + "/datasheet.pdf"
except KeyboardInterrupt:
print("Quitting!")
fprint("Quitting!")
os.remove(output_dir + "/datasheet.pdf")
sys.exit()
@@ -100,7 +186,7 @@ def get_multi(partnums):
def _download_datasheet(url, output_dir): # Download datasheet with known URL
global bartext
#print(url)
#fprint(url)
try:
with requests.get(url, stream=True) as r:
#r.raise_for_status()
@@ -117,18 +203,18 @@ def get_multi(partnums):
bartext = bartext + "."
bar.text = bartext
f.write(chunk)
#print("")
#fprint("")
return output_dir + "/datasheet.pdf"
except KeyboardInterrupt:
print("Quitting!")
fprint("Quitting!")
os.remove(output_dir + "/datasheet.pdf")
sys.exit()
def _download_image(url, output_dir): # Download datasheet with known URL
def _download_image(url, output_dir): # Download image with known URL
global bartext
#print(url)
#fprint(url)
try:
with requests.get(url, stream=True) as r:
#r.raise_for_status()
@@ -143,32 +229,39 @@ def get_multi(partnums):
bartext = bartext + "."
bar.text = bartext
f.write(chunk)
#print("")
#fprint("")
return output_dir + "/part-hires." + url.split(".")[-1]
except KeyboardInterrupt:
print("Quitting!")
fprint("Quitting!")
os.remove(partnum + "/datasheet.pdf")
sys.exit()
def __use_cached_datasheet(partnum, path, output_dir):
print("Using cached datasheet for " + partnum, end='')
def __use_cached_datasheet(partnum, path, output_dir, dstype):
fprint("Using cached datasheet for " + partnum)
bar.text = "Using cached datasheet for " + partnum
bar(skipped=True)
print("Parsing Datasheet contents of " + partnum, end='')
bar.text = "Parsing Datasheet contents of " + partnum + ".pdf..."
read_datasheet.parse(path, output_dir)
bar(skipped=False)
if not os.path.exists(output_dir + "/parsed"):
def __downloaded_datasheet(partnum, path, output_dir):
print("Downloaded " + path, end='')
fprint("Parsing Datasheet contents of " + partnum)
bar.text = "Parsing Datasheet contents of " + partnum + ".pdf..."
read_datasheet.parse(path, output_dir, partnum, dstype)
bar(skipped=False)
else:
fprint("Datasheet already parsed for " + partnum)
bar.text = "Datasheet already parsed for " + partnum + ".pdf"
bar(skipped=True)
def __downloaded_datasheet(partnum, path, output_dir, dstype):
fprint("Downloaded " + path)
bar.text = "Downloaded " + path
bar(skipped=False)
print("Parsing Datasheet contents of " + partnum, end='')
fprint("Parsing Datasheet contents of " + partnum)
bar.text = "Parsing Datasheet contents of " + partnum + ".pdf..."
read_datasheet.parse(path, output_dir)
read_datasheet.parse(path, output_dir, partnum, dstype)
bar(skipped=False)
for partnum in partnums:
def run_search(partnum):
output_dir = "cables/" + partnum
path = output_dir + "/datasheet.pdf"
bartext = "Downloading files for part " + partnum
@@ -176,48 +269,85 @@ def get_multi(partnums):
#
if (not os.path.exists(output_dir + "/found_part_hires")) or not (os.path.exists(path) and os.path.getsize(path) > 1):
# Use query
search_result = query_search(partnum.replace(" ", ""))
search_result = query_search(partnum, dstype)
# Try to use belden.com search
if search_result is not False:
# Download high resolution part image if available and needed
partnum = search_result["partnum"]
output_dir = "cables/" + partnum
path = output_dir + "/datasheet.pdf"
bartext = "Downloading files for part " + partnum
bar.text = bartext
if not os.path.exists(output_dir + "/found_part_hires"):
if _download_image(search_result["image"], output_dir):
print("Downloaded hi-res part image for " + partnum)
fprint("Downloaded hi-res part image for " + partnum)
touch(output_dir + "/found_part_hires")
else:
print("Using cached hi-res part image for " + partnum)
fprint("Using cached hi-res part image for " + partnum)
# Download datasheet from provided URL if needed
if os.path.exists(path) and os.path.getsize(path) > 1:
__use_cached_datasheet(partnum, path, output_dir)
__use_cached_datasheet(partnum, path, output_dir, dstype)
elif _download_datasheet(search_result["datasheet"], output_dir) is not False:
__downloaded_datasheet(partnum, path, output_dir)
__downloaded_datasheet(partnum, path, output_dir, dstype)
elif os.path.exists(path) and os.path.getsize(path) > 1:
__use_cached_datasheet(partnum, path, output_dir)
__use_cached_datasheet(partnum, path, output_dir, dstype)
# If search fails, and we don't already have the datasheet, guess datasheet URL and skip the hires image download
elif _try_download_datasheet(partnum, output_dir) is not False:
__downloaded_datasheet(partnum, path, output_dir)
__downloaded_datasheet(partnum, path, output_dir, dstype)
# Failed to download with search or guess :(
else:
print("Failed to download datasheet for part " + partnum, end='')
return False
return True
# We already have a hi-res image and the datasheet - perfect!
else:
fprint("Using cached hi-res part image for " + partnum)
__use_cached_datasheet(partnum, path, output_dir, dstype)
return True
for fullpartnum in partnums:
if fullpartnum[0:2] == "BL": # catalog.belden.com entry
partnum = fullpartnum[2:]
dstype = "Belden"
elif fullpartnum[0:2] == "AW":
partnum = fullpartnum[2:]
dstype = "Alphawire"
else:
dstype = "Belden" # guess
partnum = fullpartnum
if not run_search(partnum):
success = False
if len(partnum.split(" ")) > 1:
for name in partnum.split(" "):
fprint("Retrying with alternate name: " + name)
if(run_search(name)):
success = True
break
time.sleep(delay)
if not success:
namestripped = partnum.strip(" ")
fprint("Retrying with alternate name: " + namestripped)
if(run_search(namestripped)):
success = True
time.sleep(delay)
if not success:
fprint("Failed to download datasheet for part " + partnum)
bar.text = "Failed to download datasheet for part " + partnum
failed.append(partnum)
bar(skipped=True)
bar(skipped=True)
# We already have a hi-res image and the datasheet - perfect!
else:
print("Using cached hi-res part image for " + partnum)
__use_cached_datasheet(partnum, path, output_dir)
time.sleep(delay)
if len(failed) > 0:
print("Failed to download:")
fprint("Failed to download:")
for partnum in failed:
print(partnum)
fprint(partnum)
return False # Go to manual review upload page
else:
return True # All cables downloaded; we are good to go
@@ -226,20 +356,73 @@ def get_multi(partnums):
if __name__ == "__main__":
partnums = ["10GXS12", "RST 5L-RKT 5L-949",
"10GXS13",
"10GXW12",
"10GXW13",
"2412",
"2413",
"OSP6AU",
"FI4D024P9",
"FISD012R9",
"FDSD012A9",
"FSSL024NG",
"FISX006W0",
"FISX00103"
# partnums = ["BLFISX012W0", "BL7958A", "BL10GXS12", "BLRST 5L-RKT 5L-949",
# "BL10GXS13",
# "BL10GXW12",
# "BL10GXW13",
# "BL2412",
# "BL2413",
# "BLOSP6AU",
# "BLFI4D024P9",
# "BLFISD012R9",
# "BLFDSD012A9",
# "BLFSSL024NG",
# "BLFISX006W0",
# "BLFISX00103",
# "BLC6D1100007"
# ]
partnums = [
# Actual cables in Jukebox
"AW86104CY",
"AW3050",
"AW6714",
"AW1172C",
"AW2211/4",
"BLTF-1LF-006-RS5N",
"BLTF-SD9-006-RI5N",
"BLTT-SLG-024-HTNN",
"BLFISX012W0",
"BLFI4X012W0",
"BLSPE101 006Q",
"BLSPE102 006Q",
"BL7922A 010Q",
"BL7958A 008Q",
"BLIOP6U 010Q",
"BL10GXW13 D15Q",
"BL10GXW53 D15Q",
"BL29501F 010Q",
"BL29512 010Q",
"BL3106A 010Q",
"BL9841 060Q",
"BL3105A 010Q",
"BL3092A 010Q",
"BL8760 060Q",
"BL6300UE 008Q",
"BL6300FE 009Q",
"BLRA500P 006Q",
# Some ones I picked, including some invalid ones
"BL10GXS12",
"BLRST 5L-RKT 5L-949",
"BL10GXS13",
"BL10GXW12",
"BL10GXW13",
"BL2412",
"BL2413",
"BLOSP6AU",
"BLFI4D024P9",
"BLFISD012R9",
"BLFDSD012A9",
"BLFSSL024NG",
"BLFISX006W0",
"BLFISX00103",
"BLC6D1100007"
]
get_multi(partnums)
#query_search("86104CY", "Alphawire")
get_multi(partnums, 0.25)
#query_search("10GXS13", "Belden")

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<html> <head> <title>RGB Controller Configuration</title> <style> body { background-color: #cccccc; font-family: Arial, Helvetica, Sans-Serif; Color: #000088; } </style> </head> <body> <h1>RGB Controller Configuration</h1><br> <h2>Set IP address</h2> Needs reboot to apply<br> Set to 0.0.0.0 for DHCP <form method="post" enctype="application/x-www-form-urlencoded" action="/postform/"> <input type="text" name="ipa" value="0" size="3">. <input type="text" name="ipb" value="0" size="3">. <input type="text" name="ipc" value="0" size="3">. <input type="text" name="ipd" value="0" size="3"> <input type="submit" value="Set"> </form><br> <h2>Set Hostname</h2> Needs reboot to apply<br> Max 64 characters <form method="post" enctype="application/x-www-form-urlencoded" action="/postform/"> <input type="text" name="hostname" value="RGBController" size="20"> <input type="submit" value="Set"> </form><br> <h2>DMX512 Start Universe</h2> Applies immediately<br> Between (inclusive) 1-65000 <form method="post" enctype="application/x-www-form-urlencoded" action="/postform/"> <input type="text" name="universe" value="1" size="5"> <input type="submit" value="Set"> </form><br> <form method="post" enctype="application/x-www-form-urlencoded" action="/postform/"> <input type="submit" name="reboot" value="Reboot"> </form><br> </body></html>

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install-deps.sh
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@@ -1,4 +1,5 @@
#!/bin/sh
# change this to #!/bin/bash for windows
if ! [ -d "venv" ]; then
./venv-setup.sh

359
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94
keyboard-down.ps1 Normal file
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# A script to toggle the Touch Keyboard of Windows 11,
# compatible with both Windows PowerShell and PowerShell 7.
# Based on code by @torvin (https://stackoverflow.com/users/332528/torvin): https://stackoverflow.com/a/40921638
# Based on code by @Andrea S. (https://stackoverflow.com/users/5887913/andrea-s): https://stackoverflow.com/a/55513524
# Warning: Relies on undocumented behaviour of the Windows Shell
# and may break with any update.
# Last tested on Windows 11 Home 22000.978.
Add-Type -ReferencedAssemblies $(if ($PSVersionTable.PSEdition -eq "Desktop") {"System.Drawing.dll"} else {$null}) -Language CSharp -TypeDefinition @'
using System;
using System.Diagnostics;
using System.Drawing;
using System.Runtime.InteropServices;
public class TouchKeyboardController
{
public static void ToggleTouchKeyboard()
{
try
{
UIHostNoLaunch uiHostNoLaunch = new UIHostNoLaunch();
((ITipInvocation)uiHostNoLaunch).Toggle(GetDesktopWindow());
Marshal.ReleaseComObject(uiHostNoLaunch);
}
catch (COMException exc)
{
if (exc.HResult == unchecked((int)0x80040154)) // REGDB_E_CLASSNOTREG
{
ProcessStartInfo processStartInfo = new ProcessStartInfo("TabTip.exe")
{
UseShellExecute = true
};
using (Process process = Process.Start(processStartInfo))
{
}
}
else
{
throw;
}
}
}
[ComImport, Guid("4ce576fa-83dc-4F88-951c-9d0782b4e376")]
class UIHostNoLaunch
{
}
[ComImport, Guid("37c994e7-432b-4834-a2f7-dce1f13b834b")]
[InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
interface ITipInvocation
{
void Toggle(IntPtr hwnd);
}
[DllImport("user32.dll", SetLastError = false)]
static extern IntPtr GetDesktopWindow();
public static bool IsInputPaneOpen()
{
FrameworkInputPane frameworkInputPane = new FrameworkInputPane();
Rectangle rect;
((IFrameworkInputPane)frameworkInputPane).Location(out rect);
Marshal.ReleaseComObject(frameworkInputPane);
return !rect.IsEmpty;
}
[ComImport, Guid("d5120aa3-46ba-44c5-822d-ca8092c1fc72")]
public class FrameworkInputPane
{
}
[ComImport, Guid("5752238b-24f0-495a-82f1-2fd593056796")]
[InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
public interface IFrameworkInputPane
{
int Advise([MarshalAs(UnmanagedType.IUnknown)] object pWindow, [MarshalAs(UnmanagedType.IUnknown)] object pHandler, out int pdwCookie);
int AdviseWithHWND(IntPtr hwnd, [MarshalAs(UnmanagedType.IUnknown)] object pHandler, out int pdwCookie);
int Unadvise(int pdwCookie);
int Location(out Rectangle prcInputPaneScreenLocation);
}
}
'@
# Toggle the Touch Keyboard regardless of whether it is currently shown or not.
#[TouchKeyboardController]::ToggleTouchKeyboard()
# Alternatively, if you only want to show the Touch Keyboard
# and not hide it if it is already active:
if ([TouchKeyboardController]::IsInputPaneOpen()) {
[TouchKeyboardController]::ToggleTouchKeyboard()
}

94
keyboard-up.ps1 Normal file
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# A script to toggle the Touch Keyboard of Windows 11,
# compatible with both Windows PowerShell and PowerShell 7.
# Based on code by @torvin (https://stackoverflow.com/users/332528/torvin): https://stackoverflow.com/a/40921638
# Based on code by @Andrea S. (https://stackoverflow.com/users/5887913/andrea-s): https://stackoverflow.com/a/55513524
# Warning: Relies on undocumented behaviour of the Windows Shell
# and may break with any update.
# Last tested on Windows 11 Home 22000.978.
Add-Type -ReferencedAssemblies $(if ($PSVersionTable.PSEdition -eq "Desktop") {"System.Drawing.dll"} else {$null}) -Language CSharp -TypeDefinition @'
using System;
using System.Diagnostics;
using System.Drawing;
using System.Runtime.InteropServices;
public class TouchKeyboardController
{
public static void ToggleTouchKeyboard()
{
try
{
UIHostNoLaunch uiHostNoLaunch = new UIHostNoLaunch();
((ITipInvocation)uiHostNoLaunch).Toggle(GetDesktopWindow());
Marshal.ReleaseComObject(uiHostNoLaunch);
}
catch (COMException exc)
{
if (exc.HResult == unchecked((int)0x80040154)) // REGDB_E_CLASSNOTREG
{
ProcessStartInfo processStartInfo = new ProcessStartInfo("TabTip.exe")
{
UseShellExecute = true
};
using (Process process = Process.Start(processStartInfo))
{
}
}
else
{
throw;
}
}
}
[ComImport, Guid("4ce576fa-83dc-4F88-951c-9d0782b4e376")]
class UIHostNoLaunch
{
}
[ComImport, Guid("37c994e7-432b-4834-a2f7-dce1f13b834b")]
[InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
interface ITipInvocation
{
void Toggle(IntPtr hwnd);
}
[DllImport("user32.dll", SetLastError = false)]
static extern IntPtr GetDesktopWindow();
public static bool IsInputPaneOpen()
{
FrameworkInputPane frameworkInputPane = new FrameworkInputPane();
Rectangle rect;
((IFrameworkInputPane)frameworkInputPane).Location(out rect);
Marshal.ReleaseComObject(frameworkInputPane);
return !rect.IsEmpty;
}
[ComImport, Guid("d5120aa3-46ba-44c5-822d-ca8092c1fc72")]
public class FrameworkInputPane
{
}
[ComImport, Guid("5752238b-24f0-495a-82f1-2fd593056796")]
[InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
public interface IFrameworkInputPane
{
int Advise([MarshalAs(UnmanagedType.IUnknown)] object pWindow, [MarshalAs(UnmanagedType.IUnknown)] object pHandler, out int pdwCookie);
int AdviseWithHWND(IntPtr hwnd, [MarshalAs(UnmanagedType.IUnknown)] object pHandler, out int pdwCookie);
int Unadvise(int pdwCookie);
int Location(out Rectangle prcInputPaneScreenLocation);
}
}
'@
# Toggle the Touch Keyboard regardless of whether it is currently shown or not.
#[TouchKeyboardController]::ToggleTouchKeyboard()
# Alternatively, if you only want to show the Touch Keyboard
# and not hide it if it is already active:
if (-not [TouchKeyboardController]::IsInputPaneOpen()) {
[TouchKeyboardController]::ToggleTouchKeyboard()
}

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#!/usr/bin/env python3
import sacn
import time
import sys
import yaml
import math
import random
from util import fprint
import platform # For getting the operating system name
import subprocess # For executing a shell command
from util import win32
import cv2
import numpy as np
from uptime import uptime
sender = None
debug = True
config = None
leds = None
leds_size = None
leds_normalized = None
controllers = None
data = None
exactdata = None
rings = None
ringstatus = None
mode = "Startup"
firstrun = True
changecount = 0
animation_time = 0
start = uptime()
def ping(host):
#Returns True if host (str) responds to a ping request.
# Option for the number of packets as a function of
if win32:
param1 = '-n'
param2 = '-w'
param3 = '250'
else:
param1 = '-c'
param2 = '-W'
param3 = '0.25'
# Building the command. Ex: "ping -c 1 google.com"
command = ['ping', param1, '1', param2, param3, host]
return subprocess.call(command, stdout=subprocess.DEVNULL, stderr=subprocess.STDOUT) == 0
def map():
global config
global leds
global leds_size
global leds_normalized
global controllers
global rings
global ringstatus
global animation_time
with open('config.yml', 'r') as fileread:
#global config
config = yaml.safe_load(fileread)
animation_time = config["animation_time"]
leds = list()
leds_size = list()
controllers = list()
rings = list(range(len(config["position_map"])))
ringstatus = list(range(len(config["position_map"])))
#print(rings)
#fprint(config["led"]["map"])
generate_map = False
map = list()
for shape in config["led"]["map"]:
if shape["type"] == "circle":
if generate_map:
map.append((shape["pos"][1],shape["pos"][0]))
#fprint(shape["pos"])
anglediv = 360.0 / shape["size"]
angle = 0
radius = shape["diameter"] / 2
lednum = shape["start"]
for item in config['position_map']:
# Check if the current item's position matches the target position
#print(item['pos'],(shape["pos"][1],shape["pos"][0]))
if tuple(item['pos']) == (shape["pos"][1],shape["pos"][0]):
rings[item["index"]] = (shape["pos"][1],shape["pos"][0],lednum,lednum+shape["size"]) # rings[index] = x, y, startpos, endpos
ringstatus[item["index"]] = [None, None]
break
if len(leds) < lednum + shape["size"]:
for x in range(lednum + shape["size"] - len(leds)):
leds.append(None)
leds_size.append(None)
while angle < 359.999:
tmpangle = angle + shape["angle"]
x = math.cos(tmpangle * (math.pi / 180.0)) * radius + shape["pos"][1] # flip by 90 degress when we changed layout
y = math.sin(tmpangle * (math.pi / 180.0)) * radius + shape["pos"][0]
leds[lednum] = (x,y)
lednum = lednum + 1
angle = angle + anglediv
elif shape["type"] == "strip":
angle = shape["angle"]
lednum = shape["start"]
length = shape["length"]
distdiv = length / shape["size"]
dist = distdiv / 2
xmov = math.cos(angle * (math.pi / 180.0)) * distdiv
ymov = math.sin(angle * (math.pi / 180.0)) * distdiv
pos = shape["pos"]
if len(leds) < lednum + shape["size"]:
for x in range(lednum + shape["size"] - len(leds)):
leds.append(None)
leds_size.append(None)
while dist < length:
leds[lednum] = (pos[0], pos[1])
pos[0] += xmov
pos[1] += ymov
dist += distdiv
lednum = lednum + 1
if generate_map:
map = sorted(map, key=lambda x: (-x[1], x[0]))
print(map)
import matplotlib.pyplot as plt
plt.axis('equal')
x, y = zip(*map)
plt.scatter(x, y, s=12)
#plt.plot(x, y, marker='o')
#plt.scatter(*zip(*leds), s=3)
for i, (x_pos, y_pos) in enumerate(map):
plt.text(x_pos, y_pos, str(i), color="red", fontsize=12)
plt.savefig("map2.png", dpi=600, bbox_inches="tight")
data = {"map": [{"index": i, "pos": str(list(pos))} for i, pos in enumerate(map)]}
yaml_str = yaml.dump(data, default_flow_style=False)
print(yaml_str)
print(rings)
flag = 0
for x in leds:
if x is None:
flag = flag + 1
if flag > 0:
fprint("Warning: Imperfect LED map ordering. Hiding undefined lights.")
for x in range(len(leds)):
if leds[x] is None:
leds[x] = (0, 0)
#leds = tmpleds.reverse()
#fprint(leds)
# controller mapping
for ctrl in config["led"]["controllers"]:
if len(controllers) < ctrl["universe"]+1:
for x in range(ctrl["universe"]+1 - len(controllers)):
controllers.append(None)
controllers[ctrl["universe"]] = (ctrl["ledstart"],ctrl["ledend"]+1,ctrl["ip"])
for x in range(ctrl["ledstart"],ctrl["ledend"]+1):
leds_size[x] = len(ctrl["mode"])
#fprint(controllers)
if(debug):
import matplotlib.pyplot as plt
plt.axis('equal')
for ctrl in controllers:
plt.scatter(*zip(*leds[ctrl[0]:ctrl[1]]), s=2)
#plt.scatter(*zip(*leds), s=3)
plt.savefig("map.png", dpi=600, bbox_inches="tight")
leds_adj = [(x-min([led[0] for led in leds]), # push to zero start
y-min([led[1] for led in leds]) )
for x, y in leds]
leds_normalized = [(x / max([led[0] for led in leds_adj]),
y / max([led[1] for led in leds_adj]))
for x, y in leds_adj]
#return leds, controllers
def init():
map()
global sender
global config
global leds
global leds_size
global controllers
global data
global exactdata
sender = sacn.sACNsender(fps=config["led"]["fps"], universeDiscovery=False)
sender.start() # start the sending thread
"""for x in range(len(controllers)):
print("Waiting for the controller at", controllers[x][2], "to be online...", end="")
count = 0
while not ping(controllers[x][2]):
count = count + 1
if count >= config["led"]["timeout"]:
fprint(" ERROR: controller still offline after " + str(count) + " seconds, continuing...")
break
if count < config["led"]["timeout"]:
fprint(" done")"""
for x in range(len(controllers)):
print("Activating controller", x, "at", controllers[x][2], "with", controllers[x][1]-controllers[x][0], "LEDs.")
sender.activate_output(x+1) # start sending out data
sender[x+1].destination = controllers[x][2]
sender.manual_flush = True
# initialize global pixel data list
data = list()
exactdata = list()
for x in range(len(leds)):
if leds_size[x] == 3:
exactdata.append(None)
data.append((20,20,127))
elif leds_size[x] == 4:
exactdata.append(None)
data.append((50,50,255,0))
else:
exactdata.append(None)
data.append((0,0,0))
sendall(data)
#time.sleep(50000)
fprint("Running start-up test sequence...")
for y in range(1):
for x in range(len(leds)):
setpixel(0,60,144,x)
sendall(data)
#time.sleep(2)
alloffsmooth()
def sendall(datain):
# send all LED data to all controllers
# data must have all LED data in it as [(R,G,B,)] tuples in an array, 1 tuple per pixel
global controllers
global sender
sender.manual_flush = True
for x in range(len(controllers)):
sender[x+1].dmx_data = list(sum(datain[controllers[x][0]:controllers[x][1]] , ())) # flatten the subsection of the data array
sender.flush()
time.sleep(0.002)
#sender.flush() # 100% reliable with 2 flushes, often fails with 1
#time.sleep(0.002)
#sender.flush()
def fastsendall(datain):
# send all LED data to all controllers
# data must have all LED data in it as [(R,G,B,)] tuples in an array, 1 tuple per pixel
global controllers
global sender
sender.manual_flush = False
print(datain[controllers[0][0]:controllers[0][1]])
for x in range(len(controllers)):
sender[x+1].dmx_data = list(sum(datain[controllers[x][0]:controllers[x][1]] , ())) # flatten the subsection of the data array
sender.flush()
def senduniverse(datain, lednum):
# send all LED data for 1 controller/universe
# data must have all LED data in it as [(R,G,B,)] tuples in an array, 1 tuple per pixel
global controllers
global sender
for x in range(len(controllers)):
if lednum >= controllers[x][0] and lednum < controllers[x][1]:
sender[x+1].dmx_data = list(sum(datain[controllers[x][0]:controllers[x][1]] , ())) # flatten the subsection of the data array
sender.flush()
time.sleep(0.004)
#sender.flush() # 100% reliable with 2 flushes, often fails with 1
#time.sleep(0.002)
#sender.flush()
def alloff():
tmpdata = list()
for x in range(len(leds)):
if leds_size[x] == 3:
tmpdata.append((0,0,0))
elif leds_size[x] == 4:
tmpdata.append((0,0,0,0))
else:
tmpdata.append((0,0,0))
sendall(tmpdata)
#sendall(tmpdata)
#sendall(tmpdata) #definitely make sure it's off
def allon():
global data
sendall(data)
def alloffsmooth():
tmpdata = data
for x in range(256):
for x in range(len(data)):
setpixel(tmpdata[x][0]-1,tmpdata[x][1]-1,tmpdata[x][2]-1, x)
sendall(tmpdata)
alloff()
def setpixelnow(r, g, b, num):
# slight optimization: send only changed universe
# unfortunately no way to manual flush data packets to only 1 controller with this sACN library
global data
setpixel(r,g,b,num)
senduniverse(data, num)
def setmode(stmode, r=0,g=0,b=0):
global mode
global firstrun
if stmode is not None:
if mode != stmode:
firstrun = True
mode = stmode
def setring(r,g,b,idx):
ring = rings[idx]
for pixel in range(ring[2],ring[3]):
setpixel(r,g,b,pixel)
#global data
#senduniverse(data, ring[2])
def runmodes(ring = -1, speed = 1):
global mode
global firstrun
global changecount
fprint("Mode: " + str(mode))
if mode == "Startup":
# loading animation. cable check
if firstrun:
changecount = animation_time * 3
firstrun = False
for x in range(len(ringstatus)):
ringstatus[x] = [True, animation_time]
if changecount > 0:
fprint(changecount)
changecount = fadeorder(0,len(leds), changecount, 0,50,100)
else:
setmode("Startup2")
elif mode == "Startup2":
if firstrun:
firstrun = False
else:
for x in range(len(ringstatus)):
if ringstatus[x][0]:
setring(0, 50, 100, x)
else:
ringstatus[x][1] = fadeall(rings[x][2],rings[x][3], ringstatus[x][1], 100,0,0) # not ready
elif mode == "StartupCheck":
if firstrun:
firstrun = False
for x in range(len(ringstatus)):
ringstatus[x] = [False, animation_time]
else:
for x in range(len(ringstatus)):
if ringstatus[x][0]:
ringstatus[x][1] = fadeall(rings[x][2],rings[x][3], ringstatus[x][1], 0,50,100) # ready
else:
setring(100, 0, 0, x)
elif mode == "GrabA":
if firstrun:
firstrun = False
changecount = animation_time # 100hz
if changecount > 0:
changecount = fadeall(rings[ring][2],rings[ring][3], changecount, 100,0,0)
else:
setring(100,0,0,ring)
setmode("GrabB")
elif mode == "GrabB":
if firstrun:
firstrun = False
changecount = animation_time # 100hz
if changecount > 0:
changecount = fadeorder(rings[ring][2],rings[ring][3], changecount, 0,100,0)
else:
setring(0,100,0,ring)
setmode("idle")
elif mode == "GrabC":
if firstrun:
firstrun = False
changecount = animation_time # 100hz
if changecount > 0:
changecount = fadeall(rings[ring][2],rings[ring][3], changecount, 0,50,100)
else:
setring(0,50,100,ring)
setmode("idle")
elif mode == "idle":
time.sleep(0)
sendall(data)
def fadeall(idxa,idxb,sizerem,r,g,b):
if sizerem < 1:
return 0
global exactdata
sum = 0
for x in range(idxa,idxb):
if exactdata[x] is None:
exactdata[x] = data[x]
old = exactdata[x]
dr = (r - old[0])/sizerem
sum += abs(dr)
dr += old[0]
dg = (g - old[1])/sizerem
sum += abs(dg)
dg += old[1]
db = (b - old[2])/sizerem
db += old[2]
sum += abs(db)
exactdata[x] = (dr, dg, db)
#print(new)
setpixel(dr, dg, db, x)
if sizerem == 1:
exactdata[x] = None
if sum == 0 and sizerem > 2:
sizerem = 2
return sizerem - 1
def fadeorder(idxa,idxb,sizerem,r,g,b):
if sizerem < 1:
return 0
global exactdata
drs = 0
dgs = 0
dbs = 0
sum = 0
for x in range(idxa,idxb):
if exactdata[x] is None:
exactdata[x] = data[x]
old = exactdata[x]
dr = (r - old[0])
dg = (g - old[1])
db = (b - old[2])
drs += dr
dgs += dg
dbs += db
drs /= sizerem
dgs /= sizerem
dbs /= sizerem
sum += abs(drs) + abs(dgs) + abs(dbs)
print(drs,dgs,dbs)
for x in range(idxa,idxb):
old = exactdata[x]
new = list(old)
if drs > 0:
if old[0] + drs > r:
new[0] = r
drs -= r - old[0]
else:
new[0] = old[0] + drs
drs = 0
if dgs > 0:
if old[1] + dgs > g:
new[1] = g
dgs -= g - old[1]
else:
new[1] = old[1] + dgs
dgs = 0
if dbs > 0:
if old[2] + dbs > b:
new[2] = b
dbs -= b - old[2]
else:
new[2] = old[2] + dbs
dbs = 0
if drs < 0:
if old[0] + drs < r:
new[0] = r
drs -= r - old[0]
else:
new[0] = old[0] + drs
drs = 0
if dgs < 0:
if old[1] + dgs < g:
new[1] = g
dgs -= g - old[1]
else:
new[1] = old[1] + dgs
dgs = 0
if dbs < 0:
if old[2] + dbs < b:
new[2] = b
dbs -= b - old[2]
else:
new[2] = old[2] + dbs
dbs = 0
if drs != 0 or dgs != 0 or dbs != 0:
exactdata[x] = new
setpixel(new[0],new[1],new[2],x)
if sizerem == 1:
exactdata[x] = None
if sum == 0 and sizerem > 2:
sizerem = 2
return sizerem - 1
def setpixel(r, g, b, num):
global data
global leds_size
# constrain values
if r < 0:
r = 0
elif r > 255:
r = 255
if g < 0:
g = 0
elif g > 255:
g = 255
if b < 0:
b = 0
elif b > 255:
b = 255
if leds_size[num] == 3:
data[num] = (int(r), int(g), int(b))
elif leds_size[num] == 4: # cut out matching white and turn on white pixel instead
data[num] = (( int(r) - int(min(r,g,b)), int(g) - int(min(r,g,b)), int(b) - int(min(r,g,b)), int(min(r,g,b))) )
else:
data[num] = (int(r), int(g), int(b))
def close():
global sender
time.sleep(0.5)
sender.stop()
def mapimage(image, fps=90):
global start
while uptime() - start < 1/fps:
time.sleep(0.00001)
fprint(1 / (uptime() - start))
start = uptime()
minsize = min(image.shape[0:2])
leds_normalized2 = [(x * minsize,
y * minsize)
for x, y in leds_normalized]
cv2.imshow("video", image)
cv2.waitKey(1)
#im_rgb = image #cv2.cvtColor(image, cv2.COLOR_BGR2RGB) # OpenCV uses BGR format by default
avgx = 0
avgy = 0
for xx in range(len(leds_normalized2)):
led = leds_normalized2[xx]
x, y = int(round(led[0])), int(round(led[1]))
if x < image.shape[1] and y < image.shape[0]:
#avgx += x
#avgy += y
color = tuple(image[y, x])
setpixel(color[2]/2,color[1]/2,color[0]/2,xx) # swap b & r
#print(color)
else:
#avgx += x
#avgy += y
setpixel(0,0,0,xx)
#avgx /= len(leds)
#avgy /= len(leds)
#print((avgx,avgy, max([led[0] for led in leds_adj]), max([led[1] for led in leds_adj]) , min(image.shape[0:2]) ))
global data
fastsendall(data)
def mainloop(stmode, ring = -1, fps = 100, preview = False):
global start
while uptime() - start < 1/fps:
time.sleep(0.00001)
fprint(1 / (uptime() - start))
start = uptime()
if mode is not None:
setmode(stmode)
runmodes(ring)
if preview:
drawdata()
def drawdata():
#tmp = list()
#for x in len(leds):
# led = leds[x]
# tmp.append((led[0], led[1], data[x]))
x = [led[0] for led in leds]
y = [led[1] for led in leds]
colors = data
colors_normalized = [(x[0]/255, x[1]/255, x[2]/255) for x in colors]
# Plot the points
plt.scatter(x, y, c=colors_normalized)
# Optional: add grid, title, and labels
plt.grid(True)
plt.title('Colored Points')
plt.xlabel('X')
plt.ylabel('Y')
plt.show()
plt.savefig("map3.png", dpi=50, bbox_inches="tight")
plt.clf()
def startup_animation(show):
stmode = "Startup"
mainloop(stmode, preview=show)
while mode == "Startup":
mainloop(None, preview=show)
for x in range(54):
ringstatus[x][0] = False
mainloop(None, preview=show)
for x in range(animation_time):
mainloop(None, preview=show)
clear_animations()
stmode = "StartupCheck"
mainloop(stmode, preview=show)
clear_animations()
def clear_animations():
for x in range(len(leds)):
exactdata[x] = None
def do_animation(stmode, ring=-1):
mainloop(stmode, ring, preview=show)
wait_for_animation(ring)
def start_animation(stmode, ring=-1):
mainloop(stmode, ring, preview=show)
def wait_for_animation(ring=-1):
while mode != "idle":
mainloop(None, ring, preview=show)
if __name__ == "__main__":
init()
import matplotlib.pyplot as plt
"""cap = cv2.VideoCapture('badapple.mp4')
while cap.isOpened():
ret, frame = cap.read()
if not ret:
break
mapimage(frame, fps=30)"""
show = True
ring = 1
startup_animation(show)
for x in range(54):
ringstatus[x][0] = True
mainloop(None, preview=show)
for x in range(animation_time):
mainloop(None, preview=show)
do_animation("GrabA", 1)
do_animation("GrabA", 5)
start_animation("GrabC", 1)
wait_for_animation(1)
do_animation("GrabC", 5)
close()
#sys.exit(0)
# blue : default
# green : target
# yellow : crosshair
# red : missing
# uninitialized : red/purple?

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45
process_video.py Executable file
View File

@@ -0,0 +1,45 @@
#!/usr/bin/env python3
import cv2
import banner_ivu_export
import numpy as np
from util import fprint
class qr_reader():
camera = None
def __init__(self, ip, port):
self.camera = banner_ivu_export.DriveImg(ip, port)
def read_qr(self, tries=1):
print("Trying " + str(tries) + " frames.")
for x in range(tries):
try:
imgtype, img = self.camera.read_img()
#fprint(imgtype)
image_array = np.frombuffer(img, np.uint8)
img = cv2.imdecode(image_array, cv2.IMREAD_COLOR)
#cv2.imshow('Image', img)
#cv2.waitKey(1)
detect = cv2.QRCodeDetector()
value, points, straight_qrcode = detect.detectAndDecode(img)
return value
except:
continue
return False
class video_streamer():
camera = None
def __init__(self, ip, port):
self.camera = banner_ivu_export.DriveImg(ip, port)
def get_frame(self):
try:
return self.camera.read_img()
except:
return False
if __name__ == "__main__":
test = qr_reader("192.168.1.125", 32200)
while True:
fprint(test.read_qr(5))

203
read_datasheet.py
View File

@@ -2,34 +2,47 @@
# Parse Belden catalog techdata datasheets
import pandas as pd
pd.set_option('future.no_silent_downcasting', True)
from PyPDF2 import PdfReader
import camelot
import numpy as np
from PIL import Image
import io
import json
from util import fprint
import uuid
from util import run_cmd
import os
def parse(filename, output_dir):
def touch(path):
with open(path, 'a'):
os.utime(path, None)
def parse(filename, output_dir, partnum, dstype):
# Extract table data
tables = camelot.read_pdf(filename, pages="1-end", flavor='lattice', backend="poppler", split_text=False, line_scale=100, process_background=True, resolution=600, interations=1, layout_kwargs={'detect_vertical': False, 'char_margin': 0.5}, shift_text=['r', 't'])
#print("Total tables extracted:", tables.n)
#fprint("Total tables extracted:", tables.n)
n = 0
pagenum = 0
reader = PdfReader(filename)
page = reader.pages[0]
table_list = {}
for table in tables:
table.df.infer_objects(copy=False)
table.df.replace('', np.nan, inplace=True)
table.df.dropna(inplace=True, how="all")
table.df.dropna(inplace=True, axis="columns", how="all")
table.df.replace(np.nan, '', inplace=True)
if not table.df.empty:
#print("\nTable " + str(n))
#fprint("\nTable " + str(n))
# Extract table names
table_start = table.cells[0][0].lt[1] # Read top-left cell's top-left coordinate
#print(table_start)
#fprint(table_start)
ymin = table_start
ymax = table_start + 10
if pagenum != table.page - 1:
@@ -43,21 +56,22 @@ def parse(filename, output_dir):
page.extract_text(visitor_text=visitor_body)
text_body = "".join(parts).strip('\n')
#print(text_body)
if len(text_body) == 0:
text_body = str(n)
#fprint(text_body)
table_list[text_body] = table.df
#table.to_html("table" + str(n) + ".html")
#print(table.df)
#fprint(table.df)
#camelot.plot(table, kind='grid').savefig("test" + str(n) + ".png")
n=n+1
#camelot.plot(tables[0], kind='grid').savefig("test.png")
tables.export(output_dir + '/techdata.json', f='json')
#tables.export(output_dir + '/techdata.json', f='json')
# print(table_list)
# fprint(table_list)
# Extract Basic details - part name & description, image, etc
reader = PdfReader(filename)
@@ -66,7 +80,7 @@ def parse(filename, output_dir):
skip = False
for image_file_object in page.images:
if image_file_object.name == "img0.png" and skip == False:
#print(Image.open(io.BytesIO(image_file_object.data)).mode)
#fprint(Image.open(io.BytesIO(image_file_object.data)).mode)
if Image.open(io.BytesIO(image_file_object.data)).mode == "P":
skip = True
continue
@@ -81,9 +95,174 @@ def parse(filename, output_dir):
with open(output_dir + "/brand.png", "wb") as fp:
fp.write(image_file_object.data)
count += 1
return table_list
# Table parsing and reordring
tables = dict()
torename = dict()
previous_table = ""
for table_name in table_list.keys():
# determine shape: horizontal or vertical
table = table_list[table_name]
rows = table.shape[0]
cols = table.shape[1]
vertical = None
if rows > 2 and cols == 2:
vertical = True
elif cols == 1:
vertical = False
elif rows == 1:
vertical = True
elif cols == 2: # and rows <= 2
# inconsistent
if table.iloc[0, 0].find(":") == len(table.iloc[0, 0]) - 1: # check if last character is ":" indicating a vertical table
vertical = True
else:
vertical = False
elif cols > 2: # and rows <= 2
vertical = False
elif rows > 2 and cols > 2: # big table
vertical = False
else: # 1 column, <= 2 rows
vertical = False
# missing name check
for table_name_2 in table_list.keys():
if table_name_2.find(table.iloc[-1, 0]) >= 0:
# Name taken from table directly above - this table does not have a name
torename[table_name_2] = "Specs " + str(len(tables))
#table_list["Specs " + str(len(tables))] = table_list[table_name_2] # rename table to arbitrary altername name
break
if vertical:
out = dict()
for row in table.itertuples(index=False, name=None):
out[row[0].replace("\n", " ").replace(":", "")] = row[1]
else: # horizontal
out = dict()
for col in table.columns:
col_data = tuple(table[col])
out[col_data[0].replace("\n", " ")] = col_data[1:]
tables[table_name] = out
# multi-page table check
if dstype == "Belden":
if table_name.isdigit() and len(tables) > 1:
#fprint(table_name)
#fprint(previous_table)
main_key = previous_table
cont_key = table_name
#fprint(tables)
if vertical == False:
main_keys = list(tables[main_key].keys())
for i, (cont_key, cont_values) in enumerate(tables[cont_key].items()):
if i < len(main_keys):
#fprint(tables[main_key][main_keys[i]])
tables[main_key][main_keys[i]] = (tuple(tables[main_key][main_keys[i]]) + (cont_key,) + cont_values)
del tables[table_name]
else:
for key in tables[cont_key].keys():
tables[main_key][key] = tables[cont_key][key]
del tables[table_name]
previous_table = table_name
# remove renamed tables
for table_name in torename.keys():
tables[torename[table_name]] = tables[table_name]
del tables[table_name]
# remove multi-line values that occasionally squeak through
def replace_newlines_in_dict(d):
for key, value in d.items():
if isinstance(value, str):
# Replace \n with " " if the value is a string
d[key] = value.replace('\n', ' ')
elif isinstance(value, dict):
# Recursively call the function if the value is another dictionary
replace_newlines_in_dict(value)
return d
tables = replace_newlines_in_dict(tables)
# summary
output_table = dict()
output_table["partnum"] = partnum
id = str(uuid.uuid4())
output_table["id"] = id
#output_table["position"] = id
#output_table["brand"] = brand
output_table["fullspecs"] = tables
output_table["searchspecs"] = {"partnum": partnum, **flatten(tables)}
output_table["searchspecs"]["id"] = id
#print(output_table)
run_cmd("rm \"" + output_dir + "\"/*.json") # not reliable!
with open(output_dir + "/" + output_table["searchspecs"]["id"] + ".json", 'w') as json_file:
json.dump(output_table["searchspecs"], json_file)
touch(output_dir + "/parsed")
return output_table
def flatten(tables):
def convert_to_number(s):
try:
# First, try converting to an integer.
return int(s)
except ValueError:
# If that fails, try converting to a float.
try:
return float(s)
except ValueError:
# If it fails again, return the original string.
return s
out = dict()
#print("{")
for table in tables.keys():
for key in tables[table].keys():
if len(key) < 64:
keyname = key
else:
keyname = key[0:64]
fullkeyname = (table + ": " + keyname).replace(".","")
if type(tables[table][key]) is not tuple:
out[fullkeyname] = convert_to_number(tables[table][key])
#print("\"" + keyname + "\":", "\"" + str(out[fullkeyname]) + "\",")
elif len(tables[table][key]) == 1:
out[fullkeyname] = convert_to_number(tables[table][key][0])
#print("\"" + keyname + "\":", "\"" + str(out[fullkeyname]) + "\",")
# if the item has at least two commas in it, split it
if tables[table][key].count(',') > 0:
out[fullkeyname] = list(map(lambda x: x.strip(), tables[table][key].split(",")))
#print("\"" + keyname + "\":", "\"" + str(out[fullkeyname]) + "\",")
# if the item has at least two commas in it, split it
if tables[table][key].count(',') > 0:
out[fullkeyname] = list(map(lambda x: x.strip(), tables[table][key].split(",")))
print("\"" + keyname + "\":", "\"" + str(out[fullkeyname]) + "\",")
#print("}")
return out
if __name__ == "__main__":
parse("test2.pdf", "10GXS13")
parse("test2.pdf", "cables/10GXS13", "10GXS13")

12
requirements.txt
View File

@@ -4,7 +4,17 @@ opencv-python
pypdf2==2.12.1
alive-progress
requests
psycopg2
git+https://github.com/Byeongdulee/python-urx.git
meilisearch
pyyaml
Flask
selenium
sacn
uptime
websockets
numpy
scipy
ipywidgets
# Development
matplotlib

426
run.py Executable file
View File

@@ -0,0 +1,426 @@
#!/usr/bin/env python3
import get_specs
import traceback
#import logging
import yaml
from multiprocessing import Process, Manager, Pool, TimeoutError, active_children, log_to_stderr, Pipe, Queue
from multiprocessing.pool import Pool
import multiprocessing
from time import sleep
from util import fprint
from util import run_cmd
import sys
import ur5_control
import os
import signal
import socket
from flask import Flask, render_template, request
import requests
import led_control
import server
import asyncio
import json
import process_video
config = None
keeprunning = True
arm_ready = False
led_ready = False
camera_ready = False
sensor_ready = False
vm_ready = False
killme = None
#pool = None
serverproc = None
camera = None
to_server_queue = Queue()
from_server_queue = Queue()
def arm_start_callback(res):
global arm_ready
arm_ready = True
def led_start_callback(res):
global led_ready
led_ready = True
def camera_start_callback(res):
global camera_ready
camera_ready = True
def sensor_start_callback(res):
global sensor_ready
sensor_ready = True
def vm_start_callback(res):
global vm_ready
vm_ready = True
def wait_for(val, name):
#global val
if val is False:
fprint("waiting for " + name + " to complete...")
while val is False:
sleep(0.1)
def start_server_socket():
"""app = Flask(__name__)
@app.route('/report_ip', methods=['POST'])
def report_ip():
client_ip = request.json.get('ip')
fprint(f"Received IP: {client_ip}")
# You can store or process the IP address as needed
return "IP Received", 200
app.run(host='0.0.0.0', port=5000)"""
global to_server_queue
global from_server_queue
fprint("Starting WebSocket server...")
websocket_process = server.start_websocket_server(to_server_queue, from_server_queue)
# Example
#to_server_queue.put("Hello, WebSocket clients!")
while True:
#print("HI")
# Handeling Server Requests Loop, will run forever
if not from_server_queue.empty():
client_id, message = from_server_queue.get()
fprint(f"Message from client {client_id}: {message}")
# Message handler
try:
decoded = json.loads(message)
if "type" not in decoded:
fprint("Missing \"type\" field.")
continue
if "call" not in decoded:
fprint("Missing \"call\" field.")
continue
if "data" not in decoded:
fprint("Missing \"data\" field.")
continue
# if we get here, we have a "valid" data packet
data = decoded["data"]
call = decoded["call"]
match decoded["type"]:
case "log":
fprint("log message")
if call == "send":
fprint("webapp: " + str(data), sendqueue=to_server_queue)
elif call == "request":
fprint("")
case "cable_map":
fprint("cable_map message")
if call == "send":
fprint("")
elif call == "request":
fprint("")
case "ping":
fprint("Pong!!!")
# Lucas' notes
# Add a ping pong :) response/handler
# Add a get cable response/handler
# this will tell the robot arm to move
# Call for turning off everything
# TODO Helper for converting Python Dictionaries to JSON
# make function: pythonData --> { { "type": "...", "call": "...", "data": pythonData } }
# to send: to_server_queue.put(("*", "JSON STRING HERE")) # replace * with UUID of client to send to one specific location
case "cable_details":
fprint("cable_details message")
if call == "send":
fprint("")
elif call == "request":
fprint("")
case "cable_search":
fprint("cable_search message")
if call == "send":
fprint("")
elif call == "request":
fprint("")
case "keyboard":
fprint("keyboard message")
if call == "send":
fprint("")
elif call == "request":
fprint("")
if data["enabled"] == True:
# todo : send this to client
p = Process(target=run_cmd, args=("./keyboard-up.ps1",))
p.start()
elif data["enabled"] == False:
p = Process(target=run_cmd, args=("./keyboard-down.ps1",))
p.start()
case "machine_settings":
fprint("machine_settings message")
if call == "send":
fprint("")
elif call == "request":
fprint("")
case _:
fprint("Unknown/unimplemented data type: " + decoded["type"])
except:
fprint("Non-JSON message recieved")
continue
sleep(0.001) # Sleep to prevent tight loop
def start_client_socket():
app = Flask(__name__)
@app.route('/control_client', methods=['POST'])
def message_from_server():
# Handle message from server
data = request.json
fprint(f"Message from server: {data.get('message')}")
return "Message received", 200
app.run(host='0.0.0.0', port=6000)
def check_server_online(serverip, clientip):
def send_ip_to_server(server_url, client_ip):
try:
response = requests.post(server_url, json={'ip': client_ip}, timeout=1)
fprint(f"Server response: {response.text}")
return True
except requests.exceptions.RequestException as e:
fprint(f"Error sending IP to server: {e}")
return False
server_url = 'http://' + serverip + ':5000/report_ip'
while not send_ip_to_server(server_url, clientip):
sleep(1)
fprint("Successfully connected to server.")
return True
def setup_server(pool):
# linux server setup
global config
global counter
global sensor_ready
global camera_ready
global led_ready
global arm_ready
global serverproc
global camera
pool.apply_async(ur5_control.init, (config["arm"]["ip"],), callback=arm_start_callback)
pool.apply_async(led_control.init, callback=led_start_callback)
#pool.apply_async(sensor_control.init, callback=sensor_start_callback)
serverproc = Process(target=start_server_socket)
serverproc.start()
if led_ready is False:
fprint("waiting for " + "LED controller initialization" + " to complete...", sendqueue=to_server_queue)
while led_ready is False:
sleep(0.1)
fprint("LED controllers initialized.", sendqueue=to_server_queue)
#to_server_queue.put("[log] LED controllers initialized.")
sensor_ready = True
if sensor_ready is False:
fprint("waiting for " + "Sensor Initialization" + " to complete...", sendqueue=to_server_queue)
while sensor_ready is False:
sleep(0.1)
fprint("Sensors initialized.", sendqueue=to_server_queue)
if camera_ready is False:
fprint("waiting for " + "Camera initilization" + " to complete...", sendqueue=to_server_queue)
# camera = process_video.qr_reader(config["cameras"]["banner"]["ip"], config["cameras"]["banner"]["port"])
fprint("Camera initialized.", sendqueue=to_server_queue)
arm_ready = True
if arm_ready is False:
fprint("waiting for " + "UR5 initilization" + " to complete...", sendqueue=to_server_queue)
while arm_ready is False:
sleep(0.1)
fprint("Arm initialized.", sendqueue=to_server_queue)
return True
def mainloop_server(pool):
global config
global counter
global killme
if killme.value > 0:
killall()
counter = counter + 1
# fprint("Looking for QR code...")
# print(camera.read_qr(30))
def run_loading_app():
app = Flask(__name__)
@app.route('/')
def index():
return render_template('index.html')
app.run(debug=True, use_reloader=False, port=7000)
def setup_client(pool):
# Windows client setup
fprint("Opening browser...")
firefox = webdriver.Firefox()
firefox.fullscreen_window()
global config
global vm_ready
global serverproc
# Open loading wepage
p = Process(target=run_loading_app)
p.start()
firefox.get('http://localhost:7000')
# start Linux server VM
if config["core"]["server"] == "Hyper-V":
run_cmd("Start-VM -Name Jukebox*") # any and all VMs starting with "Jukebox"
# Wait for VM to start and be reachable over the network
serverproc = Process(target=start_client_socket)
serverproc.start()
pool.apply_async(check_server_online, (config["core"]["serverip"],config["core"]["clientip"]), callback=vm_start_callback)
#wait_for(vm_ready, "VM Startup")
#global vm_ready
if vm_ready is False:
fprint("waiting for " + "VM Startup" + " to complete...")
while vm_ready is False:
sleep(0.1)
p.terminate()
firefox.get("http://" + config["core"]["serverip"] + ":8000")
return True
def mainloop_client(pool):
sleep(0.1)
# listen for & act on commands from VM, if needed
# mainly just shut down, possibly connect to wifi or something
"""class Logger(object):
def __init__(self, filename="output.log"):
self.log = open(filename, "a")
self.terminal = sys.stdout
def write(self, message):
self.log.write(message)
#close(filename)
#self.log = open(filename, "a")
try:
self.terminal.write(message)
except:
sleep(0)
def flush(self):
print("",end="")"""
def killall():
procs = active_children()
for proc in procs:
proc.kill()
fprint("All child processes killed")
os.kill(os.getpid(), 9) # dirty kill of self
def killall_signal(a, b):
global config
if config["core"]["server"] == "Hyper-V":
run_cmd("Stop-VM -Name Jukebox*") # any and all VMs starting with "Jukebox"
killall()
def error(msg, *args):
return multiprocessing.get_logger().error(msg, *args)
class LogExceptions(object):
def __init__(self, callable):
self.__callable = callable
def __call__(self, *args, **kwargs):
try:
result = self.__callable(*args, **kwargs)
except Exception as e:
# Here we add some debugging help. If multiprocessing's
# debugging is on, it will arrange to log the traceback
error(traceback.format_exc())
# Re-raise the original exception so the Pool worker can
# clean up
raise
# It was fine, give a normal answer
return result
class LoggingPool(Pool):
def apply_async(self, func, args=(), kwds={}, callback=None):
return Pool.apply_async(self, LogExceptions(func), args, kwds, callback)
if __name__ == "__main__":
#sys.stdout = Logger(filename="output.log")
#sys.stderr = Logger(filename="output.log")
#log_to_stderr(logging.DEBUG)
fprint("Starting Jukebox control system...")
with open('config.yml', 'r') as fileread:
#global config
config = yaml.safe_load(fileread)
with Manager() as manager:
fprint("Spawning threads...")
pool = LoggingPool(processes=10)
counter = 0
killme = manager.Value('d', 0)
signal.signal(signal.SIGINT, killall_signal)
if config["core"]["mode"] == "winclient":
fprint("Starting in client mode.")
from selenium import webdriver
if setup_client(pool):
fprint("Entering main loop...")
while(keeprunning):
mainloop_client(pool)
elif config["core"]["mode"] == "linuxserver":
fprint("Starting in server mode.")
if setup_server(pool):
fprint("Entering main loop...")
while(keeprunning):
mainloop_server(pool)

117
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"""Interactions with the Meilisearch API for adding and searching cables."""
from meilisearch import Client
from meilisearch.task import TaskInfo
from meilisearch.errors import MeilisearchApiError
import json
DEFAULT_URL = "http://localhost:7700"
DEFAULT_APIKEY = "fluffybunnyrabbit" # I WOULD RECOMMEND SOMETHING MORE SECURE
DEFAULT_INDEX = "cables"
DEFAULT_FILTERABLE_ATTRS = ["partnum", "uuid", "position"] # default filterable attributes
class JukeboxSearch:
"""Class for interacting with the Meilisearch API."""
def __init__(self,
url: str = None,
api_key: str = None,
index: str = None,
filterable_attrs: list = None):
"""Connect to Meilisearch and perform first-run tasks as necessary.
:param url: Address of the Meilisearch server. Defaults to ``http://localhost:7700`` if unspecified.
:param api_key: API key used to authenticate with Meilisearch. It is highly recommended to set this as something
secure if you can access this endpoint publicly, but you can ignore this and set Meilisearch's default API key
to ``fluffybunnyrabbit``.
:param index: The name of the index to configure. Defaults to ``cables`` if unspecified.
:param filterable_attrs: List of all the attributes we want to filter by."""
# connect to Meilisearch
url = url or DEFAULT_URL
api_key = api_key or DEFAULT_APIKEY
filterable_attrs = filterable_attrs or DEFAULT_FILTERABLE_ATTRS
self.index = index or DEFAULT_INDEX
self.client = Client(url, api_key)
# create the index if it does not exist already
try:
self.client.get_index(self.index)
except MeilisearchApiError as _:
self.client.create_index(self.index)
# make a variable to easily reference the index
self.idxref = self.client.index(self.index)
# update filterable attributes if needed
self.update_filterables(filterable_attrs)
def add_document(self, document: dict) -> TaskInfo:
"""Add a cable to the Meilisearch index.
:param document: Dictionary containing all the cable data.
:returns: A TaskInfo object for the addition of the new document."""
return self.idxref.add_documents(document)
def add_documents(self, documents: list):
"""Add a list of cables to the Meilisearch index.
:param documents: List of dictionaries containing all the cable data.
:returns: A TaskInfo object for the last new document."""
taskinfo = None
for i in documents:
taskinfo = self.add_document(i)
return taskinfo
def update_filterables(self, filterables: list):
"""Update filterable attributes and wait for database to fully index. If the filterable attributes matches the
current attributes in the database, don't update (saves reindexing).
:param filterables: List of all filterable attributes"""
existing_filterables = self.idxref.get_filterable_attributes()
if len(set(existing_filterables).difference(set(filterables))) > 0:
taskref = self.idxref.update_filterable_attributes(filterables)
self.client.wait_for_task(taskref.index_uid)
def search(self, query: str, filters: str = None):
"""Execute a search query on the Meilisearch index.
:param query: Seach query
:param filters: A meilisearch compatible filter statement.
:returns: The search results dict. Actual results are in a list under "hits", but there are other nice values that are useful in the root element."""
if filters:
q = self.idxref.search(query, {"filter": filters})
else:
q = self.idxref.search(query)
return q
def _filter_one(self, filter: str):
"""Get the first item to match a filter.
:param filter: A meilisearch compatible filter statement.
:returns: A dict containing the results; If no results found, an empty dict."""
q = self.search("", filter)
if q["estimatedTotalHits"] != 0:
return ["hits"][0]
else:
return dict()
def get_position(self, position: str):
"""Get a part by position.
:param partnum: The position to search for."""
return self._filter_one(f"position = {position}")
def get_uuid(self, uuid: str):
"""Get a specific UUID.
:param uuid: The UUID to search for."""
return self._filter_one(f"uuid = {uuid}")
def get_partnum(self, partnum: str):
"""Get a specific part number.
:param partnum: The part number to search for."""
return self._filter_one(f"partnum = {partnum}")
# entrypoint
if __name__ == "__main__":
jbs = JukeboxSearch()

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server.py Executable file
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#!/usr/bin/env python3
# WebSocket server for communicating with all other nodes
"""import websockets
import asyncio
from util import fprint
class WebSocketServer:
def __init__(self):
self.start_server = websockets.serve(self.handler, "0.0.0.0", 9000)
self.received_messages = asyncio.Queue()
self.connected_clients = set()
async def handler(self, websocket, path):
self.connected_clients.add(websocket)
fprint(self.connected_clients)
try:
async for message in websocket:
fprint(message)
await self.received_messages.put(message)
finally:
self.connected_clients.remove(websocket)
async def send_message(self, message):
disconnected_clients = set()
for websocket in self.connected_clients:
try:
await websocket.send(message)
except websockets.exceptions.ConnectionClosed:
disconnected_clients.add(websocket)
self.connected_clients.difference_update(disconnected_clients)
def run(self):
fprint("Starting WebSocket server...")
asyncio.get_event_loop().run_until_complete(self.start_server)
#asyncio.run(self.start_server)
asyncio.get_event_loop().run_forever()
async def get_received_message(self):
if not self.received_messages.empty():
return await self.received_messages.get()
return None
# Function to be used by multiprocessing to run the server
def run_server():
server = WebSocketServer()
asyncio.run(server.run())"""
import asyncio
import websockets
from multiprocessing import Process, Queue
from util import fprint
import uuid
connected_clients = {}
async def handler(websocket, path, to_server_queue, from_server_queue):
# Register websocket connection
client_id = str(uuid.uuid4())
connected_clients[client_id] = websocket
try:
# Handle incoming messages
async for message in websocket:
#print(f"Received message: {message}")
print(client_id)
from_server_queue.put((client_id, message))
finally:
# Unregister websocket connection
if client_id in connected_clients:
del connected_clients[client_id]
print(f"Client {client_id} connection closed")
async def send_messages(to_server_queue):
while True:
if not to_server_queue.empty():
client_id, message = to_server_queue.get()
if client_id in connected_clients: # Send message to specific client
await connected_clients[client_id].send(message)
elif len(connected_clients) > 0: # Broadcast message to all clients
for client in connected_clients.values():
await client.send(message)
await asyncio.sleep(0.001)
def websocket_server(to_server_queue, from_server_queue):
start_server = websockets.serve(lambda ws, path: handler(ws, path, to_server_queue, from_server_queue), "localhost", 9000)
asyncio.get_event_loop().run_until_complete(start_server)
asyncio.get_event_loop().create_task(send_messages(to_server_queue))
asyncio.get_event_loop().run_forever()
def start_websocket_server(to_server_queue, from_server_queue):
p = Process(target=websocket_server, args=(to_server_queue, from_server_queue))
p.start()
return p

1
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source venv/bin/activate.fish

1
source.sh Normal file
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source venv/bin/activate

24
static/style.css Normal file
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body {
text-align: center;
padding-top: 100px;
}
.spinner {
border: 16px solid #f3f3f3;
border-top: 16px solid #002554;
border-radius: 50%;
width: 120px;
height: 120px;
animation: spin 2s linear infinite;
margin: auto;
}
@keyframes spin {
0% { transform: rotate(0deg); }
100% { transform: rotate(360deg); }
}
p {
margin-top: 20px;
font-size: 20px;
}

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templates/index.html Normal file
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<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>Loading</title>
<link rel="stylesheet" href="{{ url_for('static', filename='style.css') }}">
</head>
<body>
<div class="spinner"></div>
<p>Waiting for backend server to start...</p>
</body>
</html>

98
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106
test.py Normal file
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print("\u001b[37m")
class Ring:
def __init__(self) -> None:
self.leds = [0] * 24
self.id = 0
self.dirty = False
def __iter__(self) -> iter:
yield from self.leds
def __repr__(self) -> str:
return f"Ring<id={self.id}, led_state={' '.join(list(map(lambda x: str(x+1), self.leds)))}, dirty={self.dirty}>"
def __add__(self, other):
self.leds.extend(other)
return self
def __bool__(self):
return self.dirty
def __getitem__(self, index):
return self.leds[index]
def __setitem__(self, index, value):
ivalue = self.leds[index]
if ivalue != value:
self.dirty = True
self.leds[index] = value
def __getattr__(self, name):
import word2num
name = int(word2num.word2num(name))
print(name)
if 0 <= name < len(self.leds):
return self.leds[name]
a = Ring()
print(a)
b = Ring()
b.leds[2] = 3
print(a + b)
b.active = True
if b:
print("Bexist")
c = [a, b, b, a, a]
d = list(filter(lambda x: bool(x), c))
print(d)
for i, ring in enumerate(c):
ring[0] = i
print(ring)
print(a, b)
print(f"\u001b[32m{a}")
print(f"\u001b[37ma")
print(getattr(a, "twenty two"))
# eval(f"getattr(a,\"{input()}\")")
# a = r"wow this string is cursed; for example \n"
# SEARCHDATA=r"""{ "q": "{QUERY}", "sortCriteria": "relevancy", "numberOfResults": "250", "sortCriteria": "@catalogitemwebdisplaypriority ascending", "searchHub": "products-only-search", "pipeline": "Site Search", "maximumAge": "900000", "tab": "products-search", "locale": "en", "aq": "(NOT @z95xtemplate==(ADB6CA4F03EF4F47B9AC9CE2BA53FF97,FE5DD82648C6436DB87A7C4210C7413B)) ((@syssource==\"website_001002_catalog_index-rg-nc-prod-sitecore-prod\" @catalogitemprimarycategorypublished==true)) ((@catalogitemregionavailable=Global) (@z95xlanguage==en))", "cq": "((@z95xlanguage==en) (@z95xlatestversion==1) (@source==\"Coveo_web_index - rg-nc-prod-sitecore-prod\")) OR (@source==(\"website_001002_catalog_index-rg-nc-prod-sitecore-prod\",\"website_001002_Category_index-rg-nc-prod-sitecore-prod\"))", "firstResult": "0" }, "categoryFacets": "[{\"field\":\"@catalogitemcategories\",\"path\":[],\"injectionDepth\":1000,\"maximumNumberOfValues\":6,\"delimitingCharacter\":\"|\"}]", "facetOptions": "{}", "groupBy": " [{\"field\":\"@contenttype\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[\"Products\"],\"queryOverride\":\"{QUERY}\",\"advancedQueryOverride\":\"(NOT @z95xtemplate==(ADB6CA4F03EF4F47B9AC9CE2BA53FF97,FE5DD82648C6436DB87A7C4210C7413B)) ((((((((@z95xpath=3324AF2D58F64C0FB725521052F679D2 @z95xid<>3324AF2D58F64C0FB725521052F679D2) ((@z95xpath=C292F3A37B3A4E6BAB345DF87ADDE516 @z95xid<>C292F3A37B3A4E6BAB345DF87ADDE516) @z95xtemplate==E4EFEB787BDC4B1A908EFC64D56CB2A4)) OR ((@z95xpath=723501A864754FEEB8AE377E4C710271 @z95xid<>723501A864754FEEB8AE377E4C710271) ((@z95xpath=600114EAB0E5407A84AAA9F0985B6575 @z95xid<>600114EAB0E5407A84AAA9F0985B6575) @z95xtemplate==2BE4FD6B3B2C49EBBD9E1F6C92238B05))) OR (@syssource==\\"website_001002_catalog_index-rg-nc-prod-sitecore-prod\\" @catalogitemprimarycategorypublished==true)) OR ((@z95xpath=3324AF2D58F64C0FB725521052F679D2 @z95xid<>3324AF2D58F64C0FB725521052F679D2) @z95xpath<>C292F3A37B3A4E6BAB345DF87ADDE516)) OR @syssource==\\"website_001002_Category_index-rg-nc-prod-sitecore-prod\\") NOT @z95xtemplate==(ADB6CA4F03EF4F47B9AC9CE2BA53FF97,FE5DD82648C6436DB87A7C4210C7413B))) ((@catalogitemregionavailable=Global) (@z95xlanguage==en) OR (@contenttype=(Blogs,Resources,Other)) (NOT @ez120xcludefromcoveo==1))\",\"constantQueryOverride\":\"((@z95xlanguage==en) (@z95xlatestversion==1) (@source==\\"Coveo_web_index - rg-nc-prod-sitecore-prod\\")) OR (@source==(\\"website_001002_catalog_index-rg-nc-prod-sitecore-prod\\",\\"website_001002_Category_index-rg-nc-prod-sitecore-prod\\"))\"},{\"field\":\"@catalogitembrand\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@catalogitemenvironment\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@catalogitemregionalavailability\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@prez45xtez120xt\",\"maximumNumberOfValues\":5,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@tags\",\"maximumNumberOfValues\":4,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@facetassettype\",\"maximumNumberOfValues\":3,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@facetbrand\",\"maximumNumberOfValues\":3,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@facetmarket\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@facetsolution\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]},{\"field\":\"@facetsearchcontentpagetype\",\"maximumNumberOfValues\":6,\"sortCriteria\":\"occurrences\",\"injectionDepth\":1000,\"completeFacetWithStandardValues\":true,\"allowedValues\":[]}]" }"""
# QUERY = "AAAAAAAAAAAA"
# b = SEARCHDATA.replace(r"{QUERY}", QUERY)
q = [i * 2 for i in range(10)]
d = {a : b for a,b in enumerate(q)}
print(q)
print(d)
def stalin_sort(a):
b = sum(a)
b /= len(a)
return [b for _ in range(len(a))]
def mao_sort(a):
i = 0
while i < len(a) - 1:
if a[i+1] < a[i]:
del a[i]
else:
i += 1
return a
print(stalin_sort(list(range(10))))
print(mao_sort([1, 3, 2, 4, 5, 8, 7, 6, 9]))
# i l

58
udp_send_test.py Executable file
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#!/usr/bin/env python3
import sacn
import time
ipaddr = "192.168.68.130"
sender = None
data = None
start = time.time()
def init():
global sender
global data
sender = sacn.sACNsender(universeDiscovery=False)
sender.start() # start the sending thread
sender.activate_output(2) # start sending out data
sender[2].destination = ipaddr
sender.manual_flush = True
# initialize global pixel data list
data = list()
for x in range(170):
data.append((1,2,3)) # some random data
def fastsendall(datain):
# send all LED data to all controllers
# data must have all LED data in it as [(R,G,B,)] tuples in an array, 1 tuple per pixel
global sender
sender[2].dmx_data = list(sum(datain[0:170] , ())) # flatten the subsection of the data array
sender.flush()
def close():
global sender
time.sleep(0.5)
sender.stop()
def send_fps(fps=140):
global start
while time.time() - start < 1/fps:
time.sleep(0.00001)
print("FPS:", 1 / (time.time() - start))
start = time.time()
global data
fastsendall(data)
if __name__ == "__main__":
init()
while True:
send_fps()
time.sleep(1)
close()
#sys.exit(0)

326
ur5_control.py Executable file
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import urx
import math3d as m3d
from scipy.optimize import fsolve
import math
import numpy as np
import time
import os
import logging
from urx.robotiq_two_finger_gripper import Robotiq_Two_Finger_Gripper
import sys
from util import fprint
rob = None
def init(ip):
global rob
#sys.stdout = Logger()
fprint("Starting UR5 power up...")
# power up robot here
# wait for power up (this function runs async)
# trigger auto-initialize
# wait for auto-initialize
# init urx
fprint("Connecting to arm at " + ip)
trying = True
while trying:
try:
rob = urx.Robot(ip)
trying = False
except:
time.sleep(1)
robotiqgrip = Robotiq_Two_Finger_Gripper(rob)
# Sets robot arm endpoint offset (x,y,z,rx,ry,rz)
rob.set_tcp((0, 0, 0.15, 0, 0, 0))
# Set weight
rob.set_payload(2, (0, 0, 0.1))
#rob.set_payload(2, (0, 0, 0.1))
time.sleep(0.2)
fprint("UR5 ready.")
def set_pos_abs(x, y, z, xb, yb, zb, threshold=None):
global rob
new_orientation = m3d.Transform()
new_orientation.orient.rotate_xb(xb) # Replace rx with the desired rotation around X-axis
new_orientation.orient.rotate_yb(yb) # Replace ry with the desired rotation around Y-axis
new_orientation.orient.rotate_zb(zb) # Replace rz with the desired rotation around Z-axis
# Get the current pose
trans = rob.getl()
# Apply the new orientation while keeping the current position
new_trans = m3d.Transform(new_orientation.orient, m3d.Vector(trans[0:3]))
new_trans.pos.x = x
new_trans.pos.y = y
new_trans.pos.z = z
#rob.speedj(0.2, 0.5, 99999)
rob.set_pose(new_trans, acc=2, vel=2, command="movej", threshold=threshold) # apply the new pose
def set_pos_rel_rot_abs(x, y, z, xb, yb, zb):
global rob
new_orientation = m3d.Transform()
new_orientation.orient.rotate_xb(xb) # Replace rx with the desired rotation around X-axis
new_orientation.orient.rotate_yb(yb) # Replace ry with the desired rotation around Y-axis
new_orientation.orient.rotate_zb(zb) # Replace rz with the desired rotation around Z-axis
# Get the current pose
trans = rob.getl()
# Apply the new orientation while keeping the current position
new_trans = m3d.Transform(new_orientation.orient, m3d.Vector(trans[0:3]))
new_trans.pos.x += x
new_trans.pos.y += y
new_trans.pos.z += z
#rob.speedj(0.2, 0.5, 99999)
rob.set_pose(new_trans, acc=0.1, vel=0.4, command="movej") # apply the new pose
def set_pos_abs_rot_rel(x, y, z, xb, yb, zb):
global rob
new_orientation = m3d.Transform()
new_orientation.orient.rotate_xb(xb) # Replace rx with the desired rotation around X-axis
new_orientation.orient.rotate_yb(yb) # Replace ry with the desired rotation around Y-axis
new_orientation.orient.rotate_zb(zb) # Replace rz with the desired rotation around Z-axis
# Get the current pose
trans = rob.getl()
# Apply the new orientation while keeping the current position
new_trans = m3d.Transform(new_orientation.orient, m3d.Vector(trans[0:3]))
new_trans.pos.x = x
new_trans.pos.y = y
new_trans.pos.z = z
#rob.speedj(0.2, 0.5, 99999)
rob.set_pose(new_trans, acc=0.1, vel=0.4, command="movej") # apply the new pose
def is_safe_move(start_pose, end_pose, r=0.25):
start_x, start_y = (start_pose[0], start_pose[1])
end_x, end_y = (end_pose[0], end_pose[1])
try:
m = (end_y-start_y)/(end_x-start_x)
b = start_y - m*start_x
# print('m = y/x =', m)
# print('b =', b)
except:
m = (end_x-start_x)/(end_y-start_y)
b = start_x - m*start_y
# print('m = x/y =', m)
# print('b =', b)
return r**2 - b**2 + m**2 * r**2 < 0
def cartesian_to_polar(x, y):
r = np.sqrt(x**2 + y**2)
theta = np.arctan2(y, x)
return r, theta
def polar_to_cartesian(r, theta):
x = r * np.cos(theta)
y = r * np.sin(theta)
return x, y
def move_to_polar(start_pos, end_pos):
global rob
# Convert to polar coordinates
start_r, start_theta = cartesian_to_polar(start_pos[0], start_pos[1])
end_r, end_theta = cartesian_to_polar(end_pos[0], end_pos[1])
# Interpolate for xy (spiral arc)
n_points = 30
r_intermediate = np.linspace(start_r, end_r, n_points)
theta_intermediate = np.linspace(start_theta, end_theta, n_points)
# Interpolate for z (height)
start_z = start_pos[2]
end_z = end_pos[2]
z_intermediate = np.linspace(start_z, end_z, n_points)
# Interpolate for rz (keep tool rotation fixed relative to robot)
curr_rot = rob.getl()
theta_delta = theta_intermediate[1]-theta_intermediate[0]
rx_intermediate = [curr_rot[5] + theta_delta*i for i in range(n_points)]
# curr_rot = rob.getj()
# start_rz = curr_rot[5]
# rot = end_theta - start_theta
# end_base_joint = curr_rot[0]-start_theta + rot
# end_rz = curr_rot[0] + rot
# # rob.movel([*polar_to_cartesian(end_r, end_theta), *rob.getl()[2:]], acc=2, vel=2)
# print('start_theta = ', math.degrees(start_theta))
# print('end_theta = ', math.degrees(curr_rot[0]-start_theta+rot))
# print('start_rz =', math.degrees(start_rz))
# print('rot =', math.degrees(rot))
# print('end_rz =', math.degrees(end_rz))
# rz_intermediate = np.linspace(start_rz, end_rz, n_points)
# Convert back to cartesian coordinates
curr_pos = rob.getl()
intermediate_points = [[*polar_to_cartesian(r, theta), z, *curr_pos[3:]]
for r, theta, z, rx in zip(r_intermediate,
theta_intermediate,
z_intermediate,
rx_intermediate)]
# Move robot
rob.movels(intermediate_points, acc=2, vel=2, radius=0.1)
return rx_intermediate
def move_to_home():
global rob
# Home position in degrees
home_pos = [0.10421807948612624,
-2.206111555015423,
1.710679229503537,
-1.075834511928354,
-1.569301366430687,
1.675098295930943]
# Move robot
rob.movej(home_pos, acc=2, vel=2)
def normalize_degree(theta):
# Normalizes degree theta from -1.5pi to 1.5pi
multiplier = 1
normalized_theta = theta % (math.pi * multiplier)
# Maintain the negative sign if the original angle is negative
if theta < 0:
normalized_theta -= math.pi * multiplier
# Return angle
return normalized_theta
def get_joints_from_xyz_rel(x, y, z, initial_guess = (math.pi/2, math.pi/2, 0), limbs=(.422864, .359041, .092124)):
# Get polar coordinates of x,y pair
r, theta = cartesian_to_polar(x, y)
# Get length of each limb
l1, l2, l3 = limbs
# Formulas to find out joint positions for (r, z)
def inv_kin_r_z(p):
a, b, c = p
return (l1*math.cos(a) + l2*math.cos(a-b) + l3*math.cos(a-b-c) - r, # r
l1*math.sin(a) + l2*math.sin(a-b) - l3*math.sin(a-b-c) - z, # z
a-b-c) # wrist angle
# Normalize angles
base, shoulder, elbow, wrist = [normalize_degree(deg) for deg in [theta, *fsolve(inv_kin_r_z, initial_guess)]]
# Return result
return base, shoulder, elbow, wrist
def get_joints_from_xyz_abs(x, y, z):
joints = get_joints_from_xyz_rel(x, y, z)
# Joint offsets
# Base, Shoulder, Elbow, Wrist
inverse = [1, -1, 1, 1]
offsets = [0, 0, 0, -math.pi/2]
# Return adjusted joint positions
return [o+j*i for j, o, i in zip(joints, offsets, inverse)]
if __name__ == "__main__":
#rob.movej((0, 0, 0, 0, 0, 0), 0.1, 0.2)
#rob.movel((x, y, z, rx, ry, rz), a, v)
init("192.168.1.145")
print("Current tool pose is: ", rob.getl())
move_to_home()
home_pose = [-0.4999999077032916,
-0.2000072960336574,
0.40002172976662786,
0,
-3.14152741295329,
0]
# time.sleep(.5)
p1 = [0,
0.6,
.4,
0.2226,
3.1126,
0.0510]
p2 = [0.171,
-0.115,
0.2,
0.2226,
3.1126,
0.0510]
curr_pos = rob.getl()
# up/down,
# tool rotation
# tool angle (shouldn't need)
# rob.set_pos(p1[0:3], acc=0.5, vel=0.5)
# set_pos_abs(*home_pose)
angles = get_joints_from_xyz_abs(0.3, 0.3, 0.3)
rob.movej([*angles, *rob.getj()[4:]], acc=1, vel=1)
angles = get_joints_from_xyz_abs(-0.3, -0.3, 0.7)
rob.movej([*angles, *rob.getj()[4:]], acc=1, vel=1)
angles = get_joints_from_xyz_abs(-0.3, 0.4, 0.2)
rob.movej([*angles, *rob.getj()[4:]], acc=1, vel=1)
# set_pos_abs(*p1)
# move = move_to_polar(p1, p2)
# for p in move:
# print(math.degrees(p))
# print("Safe? :", is_safe_move(p1, p2))
# #set_pos_rel_rot_abs(0, 0, -0.2, math.pi, 0, -math.pi)
# set_pos_abs(0.3, -0.2, 0.5, math.pi, 0, -math.pi)
# set_pos_abs(0, 0.2, 0.6, math.pi, 0, -math.pi)
# set_pos_abs(-0.5, -0.2, 0.4, math.pi, 0, -math.pi)
# #set_pos_rel_rot_abs(0, 0, 0, math.pi, 0, -math.pi)
# print("Current tool pose is: ", rob.getl())
# print("getj(): ", rob.getj())
# move_to_home()
rob.stop()
os.kill(os.getpid(), 9) # dirty kill of self
sys.exit(0)

165
util.py Executable file
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import inspect
import sys
import subprocess
import os
from sys import platform
import time as t
from time import sleep
import uuid
import csv
win32 = platform == "win32"
linux = platform == "linux" or platform == "linux2"
macos = platform == "darwin"
datafile = ""
logMsg = ""
logCont = ""
settings = None
if win32:
sysid = hex(uuid.getnode())
# Python is running as Administrator (so netstat can get filename, to block, etc),
# so we use this to see who is actually logged in
# it's very hacky
startupinfo = subprocess.STARTUPINFO()
#if not getattr(sys, "frozen", False):
startupinfo.dwFlags |= subprocess.STARTF_USESHOWWINDOW # hide powershell window
res = subprocess.check_output(["WMIC", "ComputerSystem", "GET", "UserName"], universal_newlines=True, startupinfo=startupinfo)
_, username = res.strip().rsplit("\n", 1)
userid, sysdom = username.rsplit("\\", 1)
if linux or macos:
sysid = hex(uuid.getnode())
#fprint(sysid)
res = subprocess.check_output(["who",], universal_newlines=True)
userid = res.strip().split(" ")[0]
#sysdom = subprocess.check_output(["hostname",], universal_newlines=True).strip()
#fprint(sysdom)
#fprint("d")
def time():
return int(t.time())
def kill(pid):
setup_child()
try:
if pid > 4:
fprint("Killing PID " + str(pid), settings)
os.kill(int(pid), 9)
fprint("Signal 9 sent to PID " + str(pid), settings)
except:
fprint("Unable to kill " + str(pid), settings)
def fprint(msg, settings = None, sendqueue = None):
#if not getattr(sys, "frozen", False):
setup_child()
try:
frm = inspect.stack()[1]
mod = inspect.getmodule(frm[0])
logMsg = '[' + mod.__name__ + ":" + frm.function + ']:' + str(msg)
print(logMsg)
if (sendqueue is not None):
sendqueue.put(("*", "{ \"type\": \"log\", \"call\":\"send\", \"data\": \"" + logMsg + "\" }"))
if (settings is not None):
tmpList = settings["logMsg"]
tmpList.append(logMsg)
settings["logMsg"] = tmpList
except Exception as e:
try:
print('[????:' + frm.function + ']:', str(msg))
print('[util:fprint]: ' + str(e))
except:
print('[????]:', str(msg))
# else:
#print(msg)
def find_data_file(filename):
if getattr(sys, "frozen", False):
# The application is frozen
datadir = os.path.dirname(sys.executable)
else:
# The application is not frozen
# Change this bit to match where you store your data files:
datadir = os.path.dirname(__file__)
return os.path.join(datadir, filename)
def run_cmd(cmd):
if win32:
startupinfo = subprocess.STARTUPINFO()
#print("DICKS")
#if not getattr(sys, "frozen", False):
# print("test")
#
#completed = subprocess.run(["powershell", "-Command", cmd], capture_output=True, startupinfo=startupinfo)
#else:
# print("alt")
startupinfo.dwFlags |= subprocess.STARTF_USESHOWWINDOW # , "-WindowStyle", "hidden"
fprint("running PS command: " + cmd, settings)
completed = subprocess.run(["powershell", "-Command", cmd], capture_output=True, startupinfo=startupinfo)
fprint("ran PS command successfully", settings)
#completed = subprocess.run(["powershell", "-WindowStyle", "hidden", "-Command", cmd], capture_output=True, startupinfo=startupinfo)
return completed
if linux or macos:
fprint("running sh command: " + cmd, settings)
completed = subprocess.run(["sh", "-c", cmd], capture_output=True)
fprint("ran sh command successfully", settings)
return completed
def setup_child(sets=None):
if not getattr(sys, "frozen", False):
sys.stdout = Logger(filename=find_data_file("output.log"))
sys.stderr = Logger(filename=find_data_file("output.log"))
if sets is not None:
settings = sets
class Logger(object):
def __init__(self, filename="output.log"):
self.log = open(filename, "a")
self.terminal = sys.stdout
def write(self, message):
#self.log.write(message)
#close(filename)
#self.log = open(filename, "a")
try:
self.terminal.write(message)
except:
sleep(0)
def flush(self):
print("", end="")
def write_stats(stats):
fprint("Writing stats", settings)
tmp = list()
tmp.append(["connections blocked", "connections allowed", "data uploaded", "data recieved", "block ratio"])
tmp.append(stats)
with open(find_data_file("stats.csv"), "w", newline="") as f:
writer = csv.writer(f)
writer.writerows(tmp)
fprint("Done writing stats", settings)
def read_stats():
with open(find_data_file("stats.csv"), newline='') as csvfile:
csvreader = csv.reader(csvfile, delimiter=',', quotechar='|')
header = True
fprint(csvreader, settings)
data = list()
for line in csvreader:
fprint(line, settings)
if header:
header = False
continue
data = line
for idx in range(len(data) - 1):
data[idx] = int(data[idx])
data[len(data) - 1] = float(data[len(data) - 1])
return data

3
venv-setup.sh
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@@ -1,6 +1,7 @@
#!/bin/sh
# change this to #!/bin/bash for windows
python -m venv ./venv
python3 -m venv ./venv
source ./venv/bin/activate
pip install --upgrade pip

156
websocket_test.html Normal file
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<!DOCTYPE html>
<html>
<head>
<title>WebSocket Test</title>
<style>
footer {
background-color: #333;
color: #fff;
text-align: center;
padding: 10px 0;
position: fixed;
bottom: 0;
width: 100%;
display: flex;
justify-content: space-around;
}
.service-box {
width: 150px;
padding: 10px;
border-radius: 5px;
}
.service-up {
background-color: green;
}
.service-down {
background-color: red;
}
</style>
<script>
// class Service {
// constructor(name, status) {
// this.name = name
// this.status = status
// }
// }
var updatedTime = new Date();
// Initial status of services
// var serviceA = new Service("234234", 'down');
// var serviceBStatus = 'down';
// var serviceCStatus = 'down';
document.addEventListener("DOMContentLoaded", function () {
// Create WebSocket connection.
const socket = new WebSocket('ws://localhost:9000');
// Connection opened
socket.addEventListener('open', function (event) {
console.log("Connected to WebSocket server");
updatedTime = new Date();
});
// Listen for messages
socket.addEventListener('message', function (event) {
console.log('Message from server', event.data);
let messages = document.getElementById('messages');
let message = document.createElement('li');
message.textContent = "Received: " + event.data;
messages.appendChild(message);
updatedTime = new Date();
});
// Send a message to the server
function sendMessage() {
let message = document.getElementById('messageInput').value;
socket.send(message);
console.log('Message sent', message);
}
// This function just sends a ping to make sure the server is there and it is able to responds
function ping() {
let message = `{ "call": "send", "type": "log", "data": "This is a ping!!" }`;
socket.send(message);
console.log('Message sent', message);
}
setInterval(ping, 1500);
// setInterval(() => {
// updateServiceStatus('serviceA', 'down');
// }, 2000);
// Bind send message function to button click
document.getElementById('sendMessage').addEventListener('click', sendMessage);
});
</script>
</head>
<body>
<h2>WebSocket Test</h2>
<textarea rows="4" cols="50" id="messageInput" placeholder="Type a message..."> </textarea>
<button id="sendMessage">Send Message</button>
<p>Example JSON</p>
<p>{ "type": "cable_map", "call": "request", "data": { } }</p>
<p>{ "type": "log", "call": "send", "data": "123123" }</p>
<p>Messages/Logs</p>
<ul id="messages"></ul>
<footer>
<!-- <div id="serviceA" class="service-box"></div>
<div id="serviceB" class="service-box"></div>
<div id="serviceC" class="service-box"></div> -->
<div id="clock"></div>
</footer>
<script>
// // Function to update service status
// function updateServiceStatus(service) {
// // serviceId, status
// var serviceElement = document.getElementById(service.serviceId);
// // updateClock();
// if (service.status === 'up') {
// serviceElement.innerHTML = '<h3>' + service.serviceId + '</h3><p>Running</p>';
// serviceElement.classList.remove('service-down');
// serviceElement.classList.add('service-up');
// } else {
// serviceElement.innerHTML = '<h3>' + service.serviceId + '</h3><p>Down</p>';
// serviceElement.classList.remove('service-up');
// serviceElement.classList.add('service-down');
// }
// }
// // Update service statuses
// updateServiceStatus('node.js (for this page)', serviceAStatus);
// updateServiceStatus('Python WebSocket', serviceBStatus);
// updateServiceStatus('serviceC', serviceCStatus);
// Function to update clock
function updateClock() {
var now = new Date();
now = now.getTime() - updatedTime.getTime();
// console.log(now)
document.getElementById('clock').textContent = 'Milliseconds Since Update: ' + now.toString().padStart(6, '0');
}
// Update clock every second
setInterval(updateClock, 100);
</script>
</body>
</html>