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base: Jukebox:labelgenv0.1
Branches Tags
Jukebox:main Jukebox:dthomas_meilisearch Jukebox:dthomas-db
Jukebox:labelgenv0.2 Jukebox:labelgenv0.1
...
compare: Jukebox:6d6c2030a94ce0cc4aa51821bbbc055875b605e8
Branches Tags
Jukebox:main Jukebox:dthomas_meilisearch Jukebox:dthomas-db
Jukebox:labelgenv0.2 Jukebox:labelgenv0.1

26 Commits
labelgenv0 ... 6d6c2030a9

Author SHA1 Message Date
BlueOceanWave
6d6c2030a9 Merge branch 'main' of https://git.myitr.org/Jukebox/jukebox-software 2024-03-26 15:24:20 -05:00
BlueOceanWave
9893222335 Pick-up routine 2024-03-26 15:24:18 -05:00
Cole Deck
82a52dea5a Add cables to meilisearch db 2024-03-26 15:09:26 -05:00
Cole Deck
77fdc43fce Add missing robot pass-ins 2024-03-24 15:35:46 -05:00
Cole Deck
3de59f5985 Convert ur5_control to class based (untested) 2024-03-24 15:31:58 -05:00
BlueOceanWave
6887fa943b Merge branch 'main' of https://git.myitr.org/Jukebox/jukebox-software 2024-03-24 13:50:17 -05:00
BlueOceanWave
2ec7906ee4 Basic move restrictions and flip routine 2024-03-23 15:47:10 -05:00
Cole Deck
069d2175d9 Convert led code to class based for multithreading 2024-03-23 15:33:51 -05:00
Cole Deck
9b1b92e21d Re-add https:// format, needed for most devices 2024-03-21 19:48:46 -05:00
Cole Deck
ee0f8f4250 Remove cairosvg VERSION patch 2024-03-21 19:41:46 -05:00
Cole Deck
9c9435570b Remove cairosvg as it doesn't have pip-only lib. Use png instead. 2024-03-21 19:39:43 -05:00
Cole Deck
1bf10f7349 Update label generator to include belden logo, use QR code, URL matching 2024-03-21 18:57:59 -05:00
Cole Deck
3c8d6c7ad3 Remove debug print 2024-03-20 16:31:29 -05:00
Cole Deck
cbe7225fc9 Fix bug with part name in query_search 2024-03-20 16:27:43 -05:00
Cole Deck
44efc4006e Correct flip rz orientation 2024-03-19 17:48:32 -05:00
Cole Deck
218303e92b Try different moves 2024-03-17 22:01:34 -05:00
Cole Deck
e5d3f87b5c Go to home position first 2024-03-17 20:49:39 -05:00
Cole Deck
2ab1d0dbb3 Add flip around mode to fit edge slots 2024-03-17 20:48:26 -05:00
Cole Deck
1338c3f440 Added tool z rotation for angled gripper 2024-03-17 20:07:25 -05:00
Cole Deck
83b077b4df Make limb lengths and offsets global 2024-03-17 19:59:17 -05:00
Cole Deck
f16242f5be Re-merge calculate_theta into get_joints_from_xyz_rel 2024-03-17 19:53:49 -05:00
Cole Deck
2f28a01b7c Add basic kinematics for gripper angle 2024-03-17 19:50:04 -05:00
Cole Deck
fb85a56d47 Use movejs to go to all cable positions 2024-03-17 16:21:57 -05:00
Cole Deck
bec0c63763 Fix ur5_control bugs, fully working IK!! Thanks Nadeem 2024-03-17 16:13:53 -05:00
BlueOceanWave
4ae30b82a0 Cleaned up notebook 2024-03-17 15:43:06 -05:00
BlueOceanWave
4bc3e30116 Fixed edge cases when calculating base angle 2024-03-17 01:01:39 -05:00
20 changed files with 1496 additions and 981 deletions
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2
.gitignore vendored
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@ -15,7 +15,7 @@ output.mp4
# log files
output.log
# images
*.png
map*.png
# Built app
build
# Generated label images

BIN
GothamCond-Medium.otf Normal file
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belden-logo-superhires.png Normal file
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41
belden-logo.svg Normal file
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@ -0,0 +1,41 @@
<?xml version="1.0" encoding="utf-8"?>
<!-- Generator: Adobe Illustrator 25.2.1, SVG Export Plug-In . SVG Version: 6.00 Build 0) -->
<svg version="1.1" id="Layer_1" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" x="0px" y="0px"
viewBox="0 0 446.6 151.4" style="enable-background:new 0 0 446.6 151.4;" xml:space="preserve">
<style type="text/css">
.st0{fill:#004990;}
</style>
<g>
<g>
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c0-15.5-8.9-23.3-26.5-23.3H21.2z M44.7,51.6c7.4,0,11.4,1.1,11.4,6.8c0,4.8-3.1,6.8-10.5,6.8c0,0-0.6,0-1.1,0
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11
config.yml
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@ -6,6 +6,17 @@ core:
arm:
ip: 192.168.1.145
tool:
offset_x: 0
offset_y: 0
offset_z: 0.14
limbs:
limb_base: 0.105
limb1: 0.425
limb2: 0.39225
limb3: 0.1
limb_wrist: 0.0997
#cable_map:
cameras:

64
get_specs.py
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@ -70,6 +70,8 @@ def query_search(partnum, source):
if idx < 0:
fprint("Could not find part in API: " + partnum)
return False
name = a["results"][idx]["title"]
#fprint("Search result found: result " + str(idx) + ", for ID " + name)
#urlname = a["results"][0]["raw"]["catalogitemurlname"]
img = a["results"][idx]["raw"]["catalogitemimageurl"]
@ -157,8 +159,8 @@ def touch(path):
def get_multi(partnums, delay=0.25, dir="cables/", cache=True):
with alive_bar(len(partnums) * 2, dual_line=True, calibrate=30, bar="classic2", spinner="classic") as bar:
def get_multi(partnums, delay=0.25, dir="cables/", cache=True, bar=None):
#with alive_bar(len(partnums) * 2, dual_line=True, calibrate=30, bar="classic2", spinner="classic", disable=True, file=sys.stdout) as bar:
failed = list()
actualpartnums = list()
def _try_download_datasheet(partnum, output_dir, dstype): # Guess datasheet URL
@ -186,7 +188,7 @@ def get_multi(partnums, delay=0.25, dir="cables/", cache=True):
# and set chunk_size parameter to None.
#if chunk:
bartext = bartext + "."
bar.text = bartext
# bar.text = bartext
f.write(chunk)
#fprint("")
return output_dir + "/datasheet.pdf"
@ -215,7 +217,7 @@ def get_multi(partnums, delay=0.25, dir="cables/", cache=True):
# and set chunk_size parameter to None.
#if chunk:
bartext = bartext + "."
bar.text = bartext
# bar.text = bartext
f.write(chunk)
#fprint("")
return output_dir + "/datasheet.pdf"
@ -242,7 +244,7 @@ def get_multi(partnums, delay=0.25, dir="cables/", cache=True):
# and set chunk_size parameter to None.
#if chunk:
bartext = bartext + "."
bar.text = bartext
# bar.text = bartext
f.write(chunk)
#fprint("")
return output_dir + "/part-hires." + url.split(".")[-1]
@ -253,32 +255,33 @@ def get_multi(partnums, delay=0.25, dir="cables/", cache=True):
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)
# bar.text = "Using cached datasheet for " + partnum
# bar(skipped=True)
if not os.path.exists(output_dir + "/parsed"):
fprint("Parsing Datasheet contents of " + partnum)
bar.text = "Parsing Datasheet contents of " + partnum + ".pdf..."
# bar.text = "Parsing Datasheet contents of " + partnum + ".pdf..."
out = read_datasheet.parse(path, output_dir, partnum, dstype)
bar(skipped=False)
# bar(skipped=False)
return out
else:
fprint("Datasheet already parsed for " + partnum)
bar.text = "Datasheet already parsed for " + partnum + ".pdf"
bar(skipped=True)
# 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)
# bar.text = "Downloaded " + path
# bar(skipped=False)
fprint("Parsing Datasheet contents of " + partnum)
bar.text = "Parsing Datasheet contents of " + partnum + ".pdf..."
# bar.text = "Parsing Datasheet contents of " + partnum + ".pdf..."
out = read_datasheet.parse(path, output_dir, partnum, dstype)
bar(skipped=False)
# bar(skipped=False)
return out
def run_search(partnum):
partnum = partnum.replace("%20", " ") # undo URL encoding
oldpartnum = partnum
if dstype == "Alphawire":
# For alphawire, sanitize the part number for only the final result check, because their API is very wierd
@ -287,7 +290,7 @@ def get_multi(partnums, delay=0.25, dir="cables/", cache=True):
output_dir = dir + partnum
path = output_dir + "/datasheet.pdf"
bartext = "Downloading files for part " + partnum
bar.text = bartext
# bar.text = bartext
partnum = oldpartnum.replace("_","/")
returnval = [partnum, dstype, False, False]
if (not os.path.exists(output_dir + "/found_part_hires")) or not (os.path.exists(path) and os.path.getsize(path) > 1) or not cache:
@ -302,7 +305,7 @@ def get_multi(partnums, delay=0.25, dir="cables/", cache=True):
output_dir = dir + partnum
path = output_dir + "/datasheet.pdf"
bartext = "Downloading files for part " + partnum
bar.text = bartext
# bar.text = bartext
if not os.path.exists(output_dir + "/found_part_hires") or not cache:
if _download_image(search_result["image"], output_dir):
@ -370,10 +373,10 @@ def get_multi(partnums, delay=0.25, dir="cables/", cache=True):
time.sleep(delay)
if not success:
fprint("Failed to download datasheet for part " + partnum)
bar.text = "Failed to download datasheet for part " + partnum
# bar.text = "Failed to download datasheet for part " + partnum
failed.append((partnum, dstype))
bar(skipped=True)
bar(skipped=True)
# bar(skipped=True)
# bar(skipped=True)
time.sleep(delay)
if len(failed) > 0:
@ -405,6 +408,7 @@ if __name__ == "__main__":
# ]
partnums = [
# Actual cables in Jukebox
"BL3092A",
"AW86104CY",
"AW3050",
"AW6714",
@ -434,10 +438,11 @@ if __name__ == "__main__":
"BL6300FE 009Q",
"BLRA500P 006Q",
]
# Some ones I picked, including some invalid ones
a = [
"BL10GXS12",
"BLRST 5L-RKT 5L-949",
"BLRST%205L-RKT%205L-949",
"BL10GXS13",
"BL10GXW12",
"BL10GXW13",
@ -448,13 +453,18 @@ if __name__ == "__main__":
"BLFISD012R9",
"BLFDSD012A9",
"BLFSSL024NG",
"BLFISX006W0",
"BLFISX00103",
"BLC6D1100007"
"BLFISX006W0", # datasheet only
"BLFISX00103", # invalid
"BLC6D1100007" # invalid
]
print(query_search("74002", "Belden"))
#get_multi(partnums, 0.25)
#print(query_search("TT-SLG-024-HTNN", "Belden"))
from label_generator import gen_label
gen_label("BLTF-SD9-006-RI5")
gen_label("BLRA500P")
gen_label("AWFIT-221-1_4")
gen_label("BLRST 5L-RKT 5L-949")
get_multi(partnums, 0.25)
#query_search("10GXS13", "Belden")

1
index.html
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@ -1 +0,0 @@
<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>

408
inv_kin_testing.ipynb
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File diff suppressed because one or more lines are too long

12
label_generator.py
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@ -61,9 +61,15 @@ def input_cable():
imgstr = "BL"
elif output[1] == "Alphawire":
imgstr = "AW"
img = generate_code(imgstr + output[0])
os.makedirs("labels", exist_ok=True)
img.save("labels/" + imgstr + output[0] + ".png")
gen_label(imgstr + output[0])
#img = generate_code(imgstr + output[0])
#os.makedirs("labels", exist_ok=True)
#img.save("labels/" + imgstr + output[0] + ".png")
def gen_label(partnum, path="labels"):
img = generate_code(partnum)
os.makedirs(path, exist_ok=True)
img.save(path + "/" + partnum + ".png")
def delete_folder(path):
# Check if the path is a directory

85
label_image.py
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@ -3,8 +3,13 @@ from util import fprint
from PIL import Image
from PIL import ImageDraw
from PIL import ImageFont
#import cv2
import numpy as np
from util import find_data_file
import segno
import io
#import cairosvg
#import math
@ -134,7 +139,8 @@ for charset in (CODE128A, CODE128B):
def generate_code(data, show=False, check=False):
img = code128_image(data)
#img = code128_image(data)
img = qr_image(data)
if show:
img.show()
#img.show()
@ -198,6 +204,7 @@ def code128_format(data):
return codes
def code128_image(data, height=100, thickness=3, quiet_zone=False):
partnum = data
if not data[-1] == CODE128B['Stop']:
data = code128_format(data)
@ -227,12 +234,86 @@ def code128_image(data, height=100, thickness=3, quiet_zone=False):
#draw.arc(((width - width/5, width - width/5), (width*9 + width/5, width*9 + width/5)),0,360,fill='blue', width = int(width/8))
draw.arc(((width+int(width / 1.4), width+int(width / 1.4)), (width*9-int(width / 1.4), width*9-int(width / 1.4))),0,360,fill='blue', width = int(width/8))
font_path = find_data_file("OCRAEXT.TTF")
font_size = width/2
font = ImageFont.truetype(font_path, font_size)
text_width = font.getlength(partnum)
while text_width > width*4:
font_size -= 1
font = ImageFont.truetype(font_path, font_size)
text_width = font.getlength(partnum)
txtx = (int(width * 10) - text_width) / 2
txty = (int(width * 10)) / 2 + width / 2
draw.text((txtx,txty),partnum, "black", font)
return img
def qr_image(data, width=600):
partnum = data
# Monochrome Image
img = Image.new('RGB', (int(width * 10), int(width * 10)), 'white')
draw = ImageDraw.Draw(img)
#svg_path = find_data_file("belden-logo.svg")
#with open(svg_path, 'rb') as svg_file:
# png_image = cairosvg.svg2png(file_obj=svg_file,dpi=width*30, scale=30, background_color="white")
#with open("output.png", 'wb') as file:
# file.write(png_image)
png_image_io = "belden-logo-superhires.png"
png_image_pillow = Image.open(png_image_io)
png_width, png_height = png_image_pillow.size
png_image_pillow = png_image_pillow.resize((int(width*5.2), int(width*5.2/png_width*png_height)))
png_width, png_height = png_image_pillow.size
# paste belden logo first because it has a big border that would cover stuff up
img.paste(png_image_pillow, (int(width*5-png_width/2), int(width*4.25 - png_height/2)))
# draw circle border
#draw.arc(((width - width/5, width - width/5), (width*9 + width/5, width*9 + width/5)),0,360,fill='blue', width = int(width/8))
draw.arc(((width+int(width / 1.4), width+int(width / 1.4)), (width*9-int(width / 1.4), width*9-int(width / 1.4))),0,360,fill=(0, 73,144), width = int(width/8))
font_path = find_data_file("GothamCond-Medium.otf")
font_size = width/2
font = ImageFont.truetype(font_path, font_size)
text_width = font.getlength(partnum[2:])
# shrink font dynamically if it's too long of a name
while text_width > width*4:
font_size -= 1
font = ImageFont.truetype(font_path, font_size)
text_width = font.getlength(partnum[2:])
txtx = (int(width * 10) - text_width) / 2
txty = (int(width * 10)) / 2
# draw part number text
draw.text((txtx,txty),partnum[2:], "black", font)
# Draw QR code
partnum = partnum.replace(" ", "%20")
qrcode = segno.make('HTTPS://BLDN.APP/' + partnum,micro=False,boost_error=False,error="L",mask=3)
out = io.BytesIO()
qrx, _ = qrcode.symbol_size(1,0)
qrcode.save(out, scale=width*2/qrx, kind="PNG", border=0)
qrimg = Image.open(out)
img.paste(qrimg, box=(int(width*4),int(width*5.75)))
return img
if __name__ == "__main__":
#print(generate_code("BL10GXS13"))
#print(generate_code("BL10GXgd35j35S13"))
#print(generate_code("BL10GX54hS13"))
print(generate_code("BL10Gj34qXS13", False, False))
#print(generate_code("BL10Gj34qXS13", False, False))
#print(generate_code("BL104w5545dp7bfwp43643534/4563G-XS13"))
#adjust_image(cv2.imread('test_skew.jpg'))
path = "labels"
img = generate_code("BL10GXS13")
import os
os.makedirs(path, exist_ok=True)
img.save(path + "/" + "BL10GXS13" + ".png")

546
led_control.py
View File

@ -14,6 +14,9 @@ import cv2
import numpy as np
from uptime import uptime
class LEDSystem():
sender = None
debug = True
config = None
@ -31,7 +34,12 @@ changecount = 0
animation_time = 0
start = uptime()
def ping(host):
def __init__(self):
self.start = uptime()
#self.init()
#return self
def ping(self, host):
#Returns True if host (str) responds to a ping request.
# Option for the number of packets as a function of
@ -49,32 +57,23 @@ def ping(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
def map(self):
with open('config.yml', 'r') as fileread:
#global config
config = yaml.safe_load(fileread)
self.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"])))
self.animation_time = self.config["animation_time"]
self.leds = list()
self.leds_size = list()
self.controllers = list()
self.rings = list(range(len(self.config["position_map"])))
self.ringstatus = list(range(len(self.config["position_map"])))
#print(rings)
#fprint(config["led"]["map"])
generate_map = False
map = list()
for shape in config["led"]["map"]:
for shape in self.config["led"]["map"]:
if shape["type"] == "circle":
if generate_map:
@ -84,22 +83,22 @@ def map():
angle = 0
radius = shape["diameter"] / 2
lednum = shape["start"]
for item in config['position_map']:
for item in self.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]
self.rings[item["index"]] = (shape["pos"][1],shape["pos"][0],lednum,lednum+shape["size"]) # rings[index] = x, y, startpos, endpos
self.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)
if len(self.leds) < lednum + shape["size"]:
for x in range(lednum + shape["size"] - len(self.leds)):
self.leds.append(None)
self.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)
self.leds[lednum] = (x,y)
lednum = lednum + 1
angle = angle + anglediv
@ -112,13 +111,13 @@ def map():
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)
if len(self.leds) < lednum + shape["size"]:
for x in range(lednum + shape["size"] - len(self.leds)):
self.leds.append(None)
self.leds_size.append(None)
while dist < length:
leds[lednum] = (pos[0], pos[1])
self.leds[lednum] = (pos[0], pos[1])
pos[0] += xmov
pos[1] += ymov
dist += distdiv
@ -140,276 +139,262 @@ def map():
yaml_str = yaml.dump(data, default_flow_style=False)
print(yaml_str)
print(rings)
print(self.rings)
flag = 0
for x in leds:
for x in self.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)
for x in range(len(self.leds)):
if self.leds[x] is None:
self.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)
for ctrl in self.config["led"]["controllers"]:
if len(self.controllers) < ctrl["universe"]+1:
for x in range(ctrl["universe"]+1 - len(self.controllers)):
self.controllers.append(None)
controllers[ctrl["universe"]] = (ctrl["ledstart"],ctrl["ledend"]+1,ctrl["ip"])
self.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"])
self.leds_size[x] = len(ctrl["mode"])
#fprint(controllers)
if(debug):
if(self.debug):
import matplotlib.pyplot as plt
plt.axis('equal')
for ctrl in controllers:
plt.scatter(*zip(*leds[ctrl[0]:ctrl[1]]), s=2)
for ctrl in self.controllers:
plt.scatter(*zip(*self.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_adj = [(x-min([led[0] for led in self.leds]), # push to zero start
y-min([led[1] for led in self.leds]) )
for x, y in self.leds]
leds_normalized = [(x / max([led[0] for led in leds_adj]),
self.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="")
def init(self):
self.map()
self.sender = sacn.sACNsender(fps=self.config["led"]["fps"], universeDiscovery=False)
self.sender.start() # start the sending thread
"""for x in range(len(self.controllers)):
print("Waiting for the controller at", self.controllers[x][2], "to be online...", end="")
count = 0
while not ping(controllers[x][2]):
while not ping(self.controllers[x][2]):
count = count + 1
if count >= config["led"]["timeout"]:
if count >= self.config["led"]["timeout"]:
fprint(" ERROR: controller still offline after " + str(count) + " seconds, continuing...")
break
if count < config["led"]["timeout"]:
if count < self.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
for x in range(len(self.controllers)):
print("Activating controller", x, "at", self.controllers[x][2], "with", self.controllers[x][1]-self.controllers[x][0], "LEDs.")
self.sender.activate_output(x+1) # start sending out data
self.sender[x+1].destination = self.controllers[x][2]
self.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))
self.data = list()
self.exactdata = list()
for x in range(len(self.leds)):
if self.leds_size[x] == 3:
self.exactdata.append(None)
self.data.append((20,20,127))
elif self.leds_size[x] == 4:
self.exactdata.append(None)
self.data.append((50,50,255,0))
else:
exactdata.append(None)
data.append((0,0,0))
sendall(data)
self.exactdata.append(None)
self.data.append((0,0,0))
self.sendall(self.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)
for x in range(len(self.leds)):
self.setpixel(0,60,144,x)
self.sendall(self.data)
#time.sleep(2)
alloffsmooth()
self.alloffsmooth()
def sendall(datain):
def sendall(self, 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
self.sender.manual_flush = True
for x in range(len(self.controllers)):
self.sender[x+1].dmx_data = list(sum(datain[self.controllers[x][0]:self.controllers[x][1]] , ())) # flatten the subsection of the data array
sender.flush()
self.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):
def fastsendall(self, 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
self.sender.manual_flush = False
print(datain[self.controllers[0][0]:self.controllers[0][1]])
for x in range(len(self.controllers)):
self.sender[x+1].dmx_data = list(sum(datain[self.controllers[x][0]:self.controllers[x][1]] , ())) # flatten the subsection of the data array
sender.flush()
self.sender.flush()
def senduniverse(datain, lednum):
def senduniverse(self, 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
for x in range(len(self.controllers)):
if lednum >= self.controllers[x][0] and lednum < self.controllers[x][1]:
self.sender[x+1].dmx_data = list(sum(datain[self.controllers[x][0]:self.controllers[x][1]] , ())) # flatten the subsection of the data array
sender.flush()
self.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():
def alloff(self):
tmpdata = list()
for x in range(len(leds)):
if leds_size[x] == 3:
for x in range(len(self.leds)):
if self.leds_size[x] == 3:
tmpdata.append((0,0,0))
elif leds_size[x] == 4:
elif self.leds_size[x] == 4:
tmpdata.append((0,0,0,0))
else:
tmpdata.append((0,0,0))
sendall(tmpdata)
self.sendall(tmpdata)
#sendall(tmpdata)
#sendall(tmpdata) #definitely make sure it's off
return self
def allon():
global data
sendall(data)
def allon(self):
self.sendall(self.data)
return self
def alloffsmooth():
tmpdata = data
def alloffsmooth(self):
tmpdata = self.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)
for x in range(len(self.data)):
self.setpixel(tmpdata[x][0]-1,tmpdata[x][1]-1,tmpdata[x][2]-1, x)
self.sendall(tmpdata)
alloff()
self.alloff()
return self
def setpixelnow(r, g, b, num):
def setpixelnow(self, 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)
self.setpixel(r,g,b,num)
self.senduniverse(self.data, num)
return self
def setmode(stmode, r=0,g=0,b=0):
global mode
global firstrun
def setmode(self, stmode, r=0,g=0,b=0):
if stmode is not None:
if mode != stmode:
firstrun = True
if self.mode != stmode:
self.firstrun = True
mode = stmode
self.mode = stmode
return self
def setring(r,g,b,idx):
def setring(self, r,g,b,idx):
ring = rings[idx]
ring = self.rings[idx]
for pixel in range(ring[2],ring[3]):
setpixel(r,g,b,pixel)
self.setpixel(r,g,b,pixel)
#global data
#senduniverse(data, ring[2])
return self
def runmodes(ring = -1, speed = 1):
global mode
global firstrun
global changecount
fprint("Mode: " + str(mode))
if mode == "Startup":
def runmodes(self, ring = -1, speed = 1):
fprint("Mode: " + str(self.mode))
if self.mode == "Startup":
# loading animation. cable check
if firstrun:
changecount = animation_time * 3
if self.firstrun:
self.changecount = self.animation_time * 3
firstrun = False
for x in range(len(ringstatus)):
ringstatus[x] = [True, animation_time]
for x in range(len(self.ringstatus)):
self.ringstatus[x] = [True, self.animation_time]
if changecount > 0:
fprint(changecount)
changecount = fadeorder(0,len(leds), changecount, 0,50,100)
if self.changecount > 0:
fprint(self.changecount)
self.changecount = self.fadeorder(0,len(self.leds), self.changecount, 0,50,100)
else:
setmode("Startup2")
self.setmode("Startup2")
elif mode == "Startup2":
if firstrun:
firstrun = False
elif self.mode == "Startup2":
if self.firstrun:
self.firstrun = False
else:
for x in range(len(ringstatus)):
if ringstatus[x][0]:
setring(0, 50, 100, x)
for x in range(len(self.ringstatus)):
if self.ringstatus[x][0]:
self.setring(0, 50, 100, x)
else:
ringstatus[x][1] = fadeall(rings[x][2],rings[x][3], ringstatus[x][1], 100,0,0) # not ready
self.ringstatus[x][1] = self.fadeall(self.rings[x][2],self.rings[x][3], self.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]
elif self.mode == "StartupCheck":
if self.firstrun:
self.firstrun = False
for x in range(len(self.ringstatus)):
self.ringstatus[x] = [False, self.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
for x in range(len(self.ringstatus)):
if self.ringstatus[x][0]:
self.ringstatus[x][1] = self.fadeall(self.rings[x][2],self.rings[x][3], self.ringstatus[x][1], 0,50,100) # ready
else:
setring(100, 0, 0, x)
self.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)
elif self.mode == "GrabA":
if self.firstrun:
self.firstrun = False
self.changecount = self.animation_time # 100hz
if self.changecount > 0:
self.changecount = self.fadeall(self.rings[ring][2],self.rings[ring][3], self.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)
self.setring(100,0,0,ring)
self.setmode("GrabB")
elif self.mode == "GrabB":
if self.firstrun:
self.firstrun = False
self.changecount = self.animation_time # 100hz
if self.changecount > 0:
self.changecount = self.fadeorder(self.rings[ring][2],self.rings[ring][3], self.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)
self.setring(0,100,0,ring)
self.setmode("idle")
elif self.mode == "GrabC":
if self.firstrun:
self.firstrun = False
self.changecount = self.animation_time # 100hz
if self.changecount > 0:
self.changecount = self.fadeall(self.rings[ring][2],self.rings[ring][3], self.changecount, 0,50,100)
else:
setring(0,50,100,ring)
setmode("idle")
elif mode == "idle":
self.setring(0,50,100,ring)
self.setmode("idle")
elif self.mode == "idle":
time.sleep(0)
sendall(data)
self.sendall(self.data)
return self
def fadeall(idxa,idxb,sizerem,r,g,b):
def fadeall(self, 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]
if self.exactdata[x] is None:
self.exactdata[x] = self.data[x]
old = self.exactdata[x]
dr = (r - old[0])/sizerem
sum += abs(dr)
dr += old[0]
@ -419,27 +404,26 @@ def fadeall(idxa,idxb,sizerem,r,g,b):
db = (b - old[2])/sizerem
db += old[2]
sum += abs(db)
exactdata[x] = (dr, dg, db)
self.exactdata[x] = (dr, dg, db)
#print(new)
setpixel(dr, dg, db, x)
self.setpixel(dr, dg, db, x)
if sizerem == 1:
exactdata[x] = None
self.exactdata[x] = None
if sum == 0 and sizerem > 2:
sizerem = 2
return sizerem - 1
def fadeorder(idxa,idxb,sizerem,r,g,b):
def fadeorder(self, 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]
if self.exactdata[x] is None:
self.exactdata[x] = self.data[x]
old = self.exactdata[x]
dr = (r - old[0])
dg = (g - old[1])
db = (b - old[2])
@ -453,7 +437,7 @@ def fadeorder(idxa,idxb,sizerem,r,g,b):
sum += abs(drs) + abs(dgs) + abs(dbs)
print(drs,dgs,dbs)
for x in range(idxa,idxb):
old = exactdata[x]
old = self.exactdata[x]
new = list(old)
if drs > 0:
if old[0] + drs > r:
@ -500,20 +484,18 @@ def fadeorder(idxa,idxb,sizerem,r,g,b):
dbs = 0
if drs != 0 or dgs != 0 or dbs != 0:
exactdata[x] = new
setpixel(new[0],new[1],new[2],x)
self.exactdata[x] = new
self.setpixel(new[0],new[1],new[2],x)
if sizerem == 1:
exactdata[x] = None
self.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
def setpixel(self, r, g, b, num):
# constrain values
if r < 0:
r = 0
@ -528,29 +510,28 @@ def setpixel(r, g, b, num):
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))) )
if self.leds_size[num] == 3:
self.data[num] = (int(r), int(g), int(b))
elif self.leds_size[num] == 4: # cut out matching white and turn on white pixel instead
self.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))
self.data[num] = (int(r), int(g), int(b))
return self
def close():
global sender
def close(self):
time.sleep(0.5)
sender.stop()
self.sender.stop()
return self
def mapimage(image, fps=90):
global start
while uptime() - start < 1/fps:
def mapimage(self, image, fps=90):
while uptime() - self.start < 1/fps:
time.sleep(0.00001)
fprint(1 / (uptime() - start))
start = uptime()
fprint(1 / (uptime() - self.start))
self.start = uptime()
minsize = min(image.shape[0:2])
leds_normalized2 = [(x * minsize,
y * minsize)
for x, y in leds_normalized]
for x, y in self.leds_normalized]
cv2.imshow("video", image)
cv2.waitKey(1)
@ -567,39 +548,39 @@ def mapimage(image, fps=90):
#avgx += x
#avgy += y
color = tuple(image[y, x])
setpixel(color[2]/2,color[1]/2,color[0]/2,xx) # swap b & r
self.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)
self.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)
self.fastsendall(self.data)
return self
def mainloop(stmode, ring = -1, fps = 100, preview = False):
global start
while uptime() - start < 1/fps:
def mainloop(self, stmode, ring = -1, fps = 100, preview = False):
while uptime() - self.start < 1/fps:
time.sleep(0.00001)
fprint(1 / (uptime() - start))
start = uptime()
if mode is not None:
setmode(stmode)
runmodes(ring)
fprint(1 / (uptime() - self.start))
self.start = uptime()
if self.mode is not None:
self.setmode(stmode)
self.runmodes(ring)
if preview:
drawdata()
self.drawdata()
return self
def drawdata():
def drawdata(self):
#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
x = [led[0] for led in self.leds]
y = [led[1] for led in self.leds]
colors = self.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)
@ -612,42 +593,48 @@ def drawdata():
plt.show()
plt.savefig("map3.png", dpi=50, bbox_inches="tight")
plt.clf()
return self
def startup_animation(show):
def startup_animation(self, show):
stmode = "Startup"
mainloop(stmode, preview=show)
while mode == "Startup":
mainloop(None, preview=show)
self.mainloop(stmode, preview=show)
while self.mode == "Startup":
self.mainloop(None, preview=show)
for x in range(54):
ringstatus[x][0] = False
mainloop(None, preview=show)
self.ringstatus[x][0] = False
self.mainloop(None, preview=show)
for x in range(animation_time):
mainloop(None, preview=show)
clear_animations()
for x in range(self.animation_time):
self.mainloop(None, preview=show)
self.clear_animations()
stmode = "StartupCheck"
mainloop(stmode, preview=show)
clear_animations()
self.mainloop(stmode, preview=show)
self.clear_animations()
return self
def clear_animations():
for x in range(len(leds)):
exactdata[x] = None
def clear_animations(self):
for x in range(len(self.leds)):
self.exactdata[x] = None
return self
def do_animation(stmode, ring=-1):
mainloop(stmode, ring, preview=show)
wait_for_animation(ring)
def do_animation(self, stmode, ring=-1):
self.mainloop(stmode, ring, preview=show)
self.wait_for_animation(ring)
return self
def start_animation(stmode, ring=-1):
mainloop(stmode, ring, preview=show)
def start_animation(self, stmode, ring=-1):
self.mainloop(stmode, ring, preview=show)
return self
def wait_for_animation(ring=-1):
while mode != "idle":
mainloop(None, ring, preview=show)
def wait_for_animation(self, ring=-1):
while self.mode != "idle":
self.mainloop(None, ring, preview=show)
return self
if __name__ == "__main__":
init()
import matplotlib.pyplot as plt
"""cap = cv2.VideoCapture('badapple.mp4')
while cap.isOpened():
@ -655,24 +642,25 @@ if __name__ == "__main__":
if not ret:
break
mapimage(frame, fps=30)"""
show = True
show = False
ring = 1
startup_animation(show)
ledsys = LEDSystem()
ledsys.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)
ledsys.ringstatus[x][0] = True
ledsys.mainloop(None, preview=show)
for x in range(ledsys.animation_time):
ledsys.mainloop(None, preview=show)
do_animation("GrabA", 1)
ledsys.do_animation("GrabA", 1)
do_animation("GrabA", 5)
start_animation("GrabC", 1)
ledsys.do_animation("GrabA", 5)
ledsys.start_animation("GrabC", 1)
wait_for_animation(1)
do_animation("GrabC", 5)
ledsys.wait_for_animation(1)
ledsys.do_animation("GrabC", 5)
close()
ledsys.close()
#sys.exit(0)

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29
read_datasheet.py
View File

@ -177,7 +177,7 @@ def parse(filename, output_dir, partnum, dstype):
if dstype == "Alphawire" and table_name_2.find("\n") >= 0:
torename[table_name_2] = table_name_2[0:table_name_2.find("\n")]
if table_name_2.find(table.iloc[-1, 0]) >= 0:
if dstype == "Alphawire" and 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
@ -251,9 +251,6 @@ def parse(filename, output_dir, partnum, dstype):
#fprint(table_name)
#fprint(previous_table)
main_key = previous_table
cont_key = table_name
#fprint(tables)
@ -267,15 +264,21 @@ def parse(filename, output_dir, partnum, dstype):
del tables[table_name]
else:
#print(tables)
#print(main_key)
#print(cont_key)
for key in tables[cont_key].keys():
tables[main_key][key] = tables[cont_key][key]
del tables[table_name]
else:
previous_table = table_name
else:
previous_table = table_name
# remove & rename tables
#print(torename)
for table_name in torename.keys():
tables[torename[table_name]] = tables[table_name]
tables[torename[str(table_name)]] = tables[str(table_name)]
del tables[table_name]
# remove multi-line values that occasionally squeak through
def replace_newlines_in_dict(d):
@ -313,9 +316,9 @@ def parse(filename, output_dir, partnum, dstype):
for file_path in json_files:
os.remove(file_path)
#print(f"Deleted {file_path}")
with open(output_dir + "/search_" + output_table["searchspecs"]["id"] + ".json", 'w') as json_file:
with open(output_dir + "/search.json", 'w') as json_file:
json.dump(output_table["searchspecs"], json_file)
with open(output_dir + "/specs_" + output_table["partnum"] + ".json", 'w') as json_file:
with open(output_dir + "/specs.json", 'w') as json_file:
json.dump(output_table["fullspecs"], json_file)
#print(json.dumps(output_table, indent=2))
@ -346,12 +349,20 @@ def flatten(tables):
fullkeyname = (table + ": " + keyname).replace(".","")
if type(tables[table][key]) is not tuple:
if len(tables[table][key]) > 0:
out[fullkeyname] = convert_to_number(tables[table][key])
#print("\"" + keyname + "\":", "\"" + str(out[fullkeyname]) + "\",")
elif len(tables[table][key]) == 1:
if len(tables[table][key][0]) > 0:
out[fullkeyname] = convert_to_number(tables[table][key][0])
#print("\"" + keyname + "\":", "\"" + str(out[fullkeyname]) + "\",")
else:
tmp = []
for x in range(len(tables[table][key])):
if len(tables[table][key][x]) > 0:
tmp.append(tables[table][key][x].strip())
#out[fullkeyname + " " + str(x+1)] = convert_to_number(tables[table][key][x])
out[fullkeyname] = tmp
# 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(",")))

2
requirements.txt
View File

@ -19,7 +19,7 @@ pandas
pyarrow
ghostscript
pyzbar
segno
# Development
matplotlib

183
run.py
View File

@ -1,5 +1,6 @@
#!/usr/bin/env python3
from alive_progress import alive_bar
import get_specs
import traceback
#import logging
@ -12,16 +13,19 @@ from util import fprint
from util import run_cmd
import sys
import ur5_control
from ur5_control import Rob
import os
import signal
import socket
from flask import Flask, render_template, request
import requests
import led_control
from led_control import LEDSystem
import server
import asyncio
import json
import process_video
import search
from search import JukeboxSearch
@ -32,13 +36,22 @@ led_ready = False
camera_ready = False
sensor_ready = False
vm_ready = False
cable_search_ready = False
killme = None
#pool = None
serverproc = None
camera = None
ledsys = None
arm = None
to_server_queue = Queue()
from_server_queue = Queue()
mode = "Startup"
counter = 0
jbs = None
scan_value = None
arm_state = None
cable_list = list()
parse_res = None
def arm_start_callback(res):
global arm_ready
@ -47,10 +60,14 @@ def arm_start_callback(res):
def led_start_callback(res):
global led_ready
led_ready = True
global ledsys
ledsys = res
def camera_start_callback(res):
global camera_ready
camera_ready = True
global scan_value
scan_value = res
def sensor_start_callback(res):
global sensor_ready
@ -60,6 +77,12 @@ def vm_start_callback(res):
global vm_ready
vm_ready = True
def cable_search_callback(res):
global cable_search_ready
cable_search_ready = True
global parse_res
parse_res = res
def wait_for(val, name):
#global val
if val is False:
@ -231,13 +254,18 @@ def setup_server(pool):
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)
global arm
global jbs
arm = Rob(config)
pool.apply_async(arm.init_arm, callback=arm_start_callback)
global ledsys
ledsys = LEDSystem()
pool.apply_async(ledsys.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:
@ -253,7 +281,7 @@ def setup_server(pool):
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"])
camera = process_video.qr_reader(config["cameras"]["banner"]["ip"], config["cameras"]["banner"]["port"])
fprint("Camera initialized.", sendqueue=to_server_queue)
@ -265,23 +293,156 @@ def setup_server(pool):
fprint("Arm initialized.", sendqueue=to_server_queue)
jbs = JukeboxSearch()
return True
def mainloop_server(pool):
# NON-blocking loop
global config
global counter
global killme
global mode
global jbs
global arm
global ledsys
global camera
global arm_ready
global arm_state
global camera_ready
global cable_search_ready
global cable_list
if killme.value > 0:
killall()
counter = counter + 1
# fprint("Looking for QR code...")
# print(camera.read_qr(30))
if mode == "Startup":
counter = 54
if counter < 54:
# scanning cables
if arm_state is None:
#pool.apply_async(arm.get cable to camera, callback=arm_start_callback)
#ur5_control.goto_holder_index(arm)
#ur5 get item
# ur5 bring to camera
fprint("Getting cable index " + str(counter) + " and scanning...")
arm_state = "GET"
elif arm_ready and arm_state == "GET":
fprint("Looking for QR code...")
pool.apply_async(camera.read_qr, (30,), callback=camera_start_callback)
arm_ready = False
elif camera_ready:
fprint("Adding cable to list...")
global scan_value
if scan_value.find("bldn.app/") > -1:
scan_value = scan_value[scan_value.find("bldn.app/")+9:]
cable_list.append((counter, scan_value))
fprint(scan_value)
#pool.apply_async(arm.return cable, callback=arm_start_callback)
arm_state = "RETURN"
camera_ready = False
elif arm_ready and arm_state == "RETURN":
counter += 1
arm_state = None
else:
# just wait til arm/camera is ready
pass
else:
# scanned everything
tmp = list()
for cable in cable_list:
tmp.append(cable[1])
tmp = [
# Actual cables in Jukebox
"AW86104CY",
"AW3050",
"AW6714",
"AW1172C",
"AWFIT-221-1_4",
"BLTF-1LF-006-RS5",
"BLTF-SD9-006-RI5",
"BLTT-SLG-024-HTN",
"BLFISX012W0",
"BLFI4X012W0",
"BLSPE101",
"BLSPE102",
"BL7922A",
"BL7958A",
"BLIOP6U",
"BL10GXW13",
"BL10GXW53",
"BL29501F",
"BL29512",
"BL3106A",
"BL9841",
"BL3105A",
"BL3092A",
"BL8760",
"BL6300UE",
"BL6300FE",
"BLRA500P"
]
cable_list = tmp
pool.apply_async(get_specs.get_multi, (tmp, 0.5), callback=cable_search_callback)
mode = "Parsing"
fprint("All cables scanned. Finding & parsing datasheets...")
if mode == "Parsing":
# waiting for search & parse to complete
#cable_search_ready = True
if cable_search_ready is False:
pass
else:
# done
global parse_res
success, partnums = parse_res
#partnums = list()
# debug
#success = True
#cable_list = list(range(len(partnums)))
if success:
# easy mode
fprint("All cables inventoried and parsed.")
for x in range(len(cable_list)):
#cable_list[x] = (cable_list[x][0], partnums[x])
cable_list[x] = (x, cable_list[x])
fprint("Adding to database...")
for idx,partnum in cable_list:
with open("cables/" + partnum[2:] + "/search.json", "rb") as f:
searchdata = json.load(f)
searchdata["position"] = idx
with open("cables/" + partnum[2:] + "/specs.json", "rb") as f:
specs = json.load(f)
searchdata["fullspecs"] = specs
jbs.add_document(searchdata)
fprint("All cables added to database.")
mode = "Idle"
else:
# TODO: manual input
pass
if mode == "Idle":
# do nothing
if arm_ready is False:
pool.apply_async(ur5_control.move_to_home, (arm,), callback=arm_start_callback)
arm_ready = True
else:
# LED idle anim
pass
def run_loading_app():

9
search.py
View File

@ -1,8 +1,10 @@
#!/usr/bin/env python3
"""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
import time
DEFAULT_URL = "http://localhost:7700"
DEFAULT_APIKEY = "fluffybunnyrabbit" # I WOULD RECOMMEND SOMETHING MORE SECURE
@ -34,12 +36,15 @@ class JukeboxSearch:
# create the index if it does not exist already
try:
self.client.get_index(self.index)
self.client.delete_index(self.index)
self.client.create_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)
time.sleep(0.05)
# update filterable attributes if needed
self.idxref.update_distinct_attribute('partnum')
self.update_filterables(filterable_attrs)
def add_document(self, document: dict) -> TaskInfo:

2
setup-label-generator.py
View File

@ -10,7 +10,7 @@ import opcode
import os
import distutils
#distutils_path = os.path.join(os.path.dirname(opcode.__file__), 'distutils')
build_exe_options = {"include_msvcr": True, "packages": ["camelot", "setuptools"], "optimize": 0, "silent": True, "include_files": ["gs10030w64.exe"], "excludes": ["scipy", "torch"]}
build_exe_options = {"include_msvcr": True, "packages": ["camelot", "setuptools", "segno"], "optimize": 0, "silent": True, "include_files": ["gs10030w64.exe", "GothamCond-Medium.otf", "belden-logo-superhires.png"], "excludes": ["scipy", "torch"]}
# base="Win32GUI" should be used only for Windows GUI app
base = "console"

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test.pdf
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test2.pdf
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320
ur5_control.py
View File

@ -6,6 +6,7 @@ import numpy as np
import time
import os
import logging
import yaml
from urx.robotiq_two_finger_gripper import Robotiq_Two_Finger_Gripper
import sys
from util import fprint
@ -13,11 +14,26 @@ from util import fprint
rob = None
class Rob():
robot = None
#offset_x, offset_y, offset_z = (0, 0, 0.14) # Tool offset
#
def __init__(self, config):
self.config = config
armc = config["arm"]
self.ip = armc["ip"]
tool = armc["tool"]
limbs = armc["limbs"]
self.offset_x, self.offset_y, self.offset_z = (tool["offset_x"], tool["offset_y"], tool["offset_z"])
self.limb_base = limbs["limb_base"]
self.limb1 = limbs["limb1"]
self.limb2 = limbs["limb2"]
self.limb3 = limbs["limb3"]
self.limb_wrist = limbs["limb_wrist"]
#self.init_arm()
def init(ip):
global rob
def init_arm(self):
#sys.stdout = Logger()
fprint("Starting UR5 power up...")
@ -29,29 +45,28 @@ def init(ip):
# trigger auto-initialize
# wait for auto-initialize
ip = self.ip
# init urx
fprint("Connecting to arm at " + ip)
trying = True
while trying:
try:
rob = urx.Robot(ip)
self.robot = 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))
self.robot.set_tcp((self.offset_x, self.offset_y, self.offset_z, 0, 0, 0))
# Set weight
rob.set_payload(2, (0, 0, 0.1))
self.robot.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
def set_pos_abs(robot, x, y, z, xb, yb, zb, threshold=None):
rob = robot.robot
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
@ -67,8 +82,8 @@ def set_pos_abs(x, y, z, xb, yb, zb, threshold=None):
#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
def set_pos_rel_rot_abs(robot, x, y, z, xb, yb, zb):
rob = robot.robot
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
@ -85,8 +100,8 @@ def set_pos_rel_rot_abs(x, y, z, xb, yb, zb):
#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
def set_pos_abs_rot_rel(robot, x, y, z, xb, yb, zb):
rob = robot.robot
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
@ -132,8 +147,8 @@ def polar_to_cartesian(r, theta):
return x, y
def move_to_polar(start_pos, end_pos):
global rob
def move_to_polar(robot, start_pos, end_pos):
rob = robot.robot
# Convert to polar coordinates
start_r, start_theta = cartesian_to_polar(start_pos[0], start_pos[1])
@ -190,8 +205,8 @@ def move_to_polar(start_pos, end_pos):
return rx_intermediate
def move_to_home():
global rob
def move_to_home(robot):
rob = robot.robot
# Home position in degrees
home_pos = [0.10421807948612624,
@ -216,13 +231,14 @@ def normalize_degree(theta):
# Return angle
return normalized_theta
def get_joints_from_xyz_rel(x, y, z, rx=0, ry=-math.pi/2, rz=0, initial_guess = (math.pi/2, math.pi/2, 0)):
def get_joints_from_xyz_rel(robot, x, y, z, rx=0, ry=-math.pi/2, rz=0, initial_guess = (math.pi/2, math.pi/2, 0), l3offset=0):
# Get limbs and offsets
offset_x, offset_y, offset_z = (0, 0, 0.14) # Tool offset
l_bs, l1, l2, l3, l_wt = (0.1333, .425, .39225, .1267, .0997) # Limb lengths
#l3=0.15
l_bs, l1, l2, l3, l_wt = (robot.limb_base, robot.limb1, robot.limb2, robot.limb3, robot.limb_wrist) # Limb lengths
l3 += l3offset # add wrist offset, used for gripper angle calculations
offset_x = robot.offset_x
offset_y = robot.offset_y
offset_z = robot.offset_z
# Calculate base angle and r relative to shoulder joint
def calculate_theta(x, y, a):
# Calculate if we need the + or - in our equations
@ -238,19 +254,16 @@ def get_joints_from_xyz_rel(x, y, z, rx=0, ry=-math.pi/2, rz=0, initial_guess =
# Calculate tangent line y = mx + b
m = (x*y - math.sqrt(x*x*y*y-(x*x-a*a)*(y*y-a*a)))/(x*x-a*a)
b = flip * a * math.sqrt(1+m*m)
# Calculate equivalent tangent point on circle
cx = (-flip*m*b)/(1+m*m)
cy = m*cx + flip*b
# Calculate base angle, make angle negative if flip=1
theta = math.atan2(cy, cx) + (-math.pi if flip==1 else 0)
return theta
base_theta = calculate_theta(x, y, l_bs)
cx, cy = l_bs*math.cos(base_theta), l_bs*math.sin(l_bs)
r = math.sqrt((x-cx)**2 + (y-cy)**2)
cx, cy = l_bs*math.cos(base_theta), l_bs*math.sin(base_theta)
r = math.sqrt((x+offset_x+cx)**2 + (y+offset_y+cy)**2)
# Formulas to find out joint positions for (r, z)
@ -264,28 +277,201 @@ def get_joints_from_xyz_rel(x, y, z, rx=0, ry=-math.pi/2, rz=0, initial_guess =
# Normalize angles
base, shoulder, elbow, wrist1 = [normalize_degree(deg) for deg in [base_theta, *fsolve(inv_kin_r_z, initial_guess)]]
wrist1 += rx
# Return result
return base, shoulder, elbow, wrist1, ry, rz
def get_joints_from_xyz_abs(x, y, z, rx=0, ry=-math.pi/2, rz=math.pi/2):
joints = get_joints_from_xyz_rel(x, y, z, rx, ry, rz)
def get_joints_from_xyz_abs(robot, x, y, z, rx=0, ry=-math.pi/2, rz=math.pi/2, l3offset=0, use_closest_path=True):
rob = robot.robot
joints = get_joints_from_xyz_rel(robot, x, y, z, rx, ry, rz, l3offset=l3offset)
# Return current positions if coordinates don't make sense
if z<0:
return rob.getj()
# Joint offsets
# Base, Shoulder, Elbow, Wrist
inverse = [1, -1, 1, 1, 1, 1]
offsets = [-math.pi/2, 0, 0, -math.pi/2, 0, 0]
# Return adjusted joint positions
return [o+j*i for j, o, i in zip(joints, offsets, inverse)]
if math.degrees(joints[1]) > 137:
print("CRASH! Shoulder at", joints[1] * 180/math.pi)
#else:
#print("Shoulder at", joints[1] * 180/math.pi)
# Get adjusted joint positions
adjusted_joints = [o+j*i for j, o, i in zip(joints, offsets, inverse)]
curr_joints = rob.getj()
def get_complimentary_angle(joint_angle):
if joint_angle<0:
new_angle = joint_angle + 2*math.pi
else:
new_angle = joint_angle - 2*math.pi
if abs(new_angle) > math.radians(350):
return joint_angle
else:
return new_angle
# Use closest path (potentially going beyond 180 degrees)
if use_closest_path:
if abs(get_complimentary_angle(adjusted_joints[0])-curr_joints[0]) < abs(adjusted_joints[0]-curr_joints[0]):
adjusted_joints[0] = get_complimentary_angle(adjusted_joints[0])
# final_joint_positions = []
# for curr_joint, adjusted_joint in zip(curr_joints, adjusted_joints):
# if abs(curr_joint - adjusted_joint) < abs(curr_joint - get_complimentary_angle(adjusted_joint)):
# final_joint_positions.append(adjusted_joint)
# else:
# final_joint_positions.append(get_complimentary_angle(adjusted_joint))
# return final_joint_positions
return adjusted_joints
def move_arc(robot, x, y, z, rx=0, ry=-math.pi/2, rz=math.pi/2):
rob = robot.robot
start_joints = rob.getj()
end_joint = get_joints_from_xyz_abs(robot, x, y, z, rx, ry, rz)
n_points = 50
intermediate_joints = []
for i in range(0, 6):
intermediate_joints.append(np.linspace(start_joints[i], end_joint[i], n_points))
joints = [joint_position for joint_position in zip(*intermediate_joints)]
rob.movejs(joints, acc=2, vel=2, radius=0.1)
def offset_gripper_angle(robot, x, y, z, gripperangle=30, gripperlength=0.20+0.018, flip=False, use_closest_path=True):
# gripper angle: from vertical
# gripper length: from joint to start of grip
# to flip, you can use flip=True or make gripper angle negative
limb3 = robot.limb3
# Determine tool rotation depending on gripper angle
if gripperangle < 0:
rz = - math.pi / 2
else:
rz = math.pi / 2
if flip:
gripperangle = -math.radians(gripperangle)
grippery = gripperlength - math.cos(gripperangle) * gripperlength
grippery += math.sin(gripperangle) * limb3
gripperx = math.sin(gripperangle) * gripperlength + limb3 * 2
gripperx -= (1-math.cos(gripperangle)) * limb3
rz = math.pi / 2
# flip the whole wrist
return get_joints_from_xyz_abs(robot, x, y, z-grippery, rx=gripperangle + math.radians(180), l3offset=-gripperx, ry=math.pi/2, rz=rz, use_closest_path=use_closest_path)
else:
gripperangle = math.radians(gripperangle)
grippery = gripperlength - math.cos(gripperangle) * gripperlength
grippery -= math.sin(gripperangle) * limb3
gripperx = math.sin(gripperangle) * gripperlength
gripperx += (1-math.cos(gripperangle)) * limb3
return get_joints_from_xyz_abs(robot, x, y, z-grippery, rx=gripperangle, l3offset=-gripperx, rz=rz, use_closest_path=use_closest_path)
def goto_holder_index(robot, idx, z=0.05, gripperangle=30, flip=False, verbose=False):
joint = robot.config["position_map"][idx]
if verbose:
print("Going to cable holder index", joint["index"], "at position", joint["pos"])
safe_move(robot, joint["pos"][1]/1000, joint["pos"][0]/1000, z)
#angles = offset_gripper_angle(joint["pos"][1]/1000, joint["pos"][0]/1000, z, gripperangle=gripperangle, flip=flip)
#rob.movej(angles, acc=2, vel=2)
#return angles
#angles = get_joints_from_xyz_abs(joint["pos"][1]/1000, joint["pos"][0]/1000, 0.05, )
def is_flipped(robot):
rob = robot.robot
wrist2 = rob.getj()[4]
if wrist2>0:
return True
else:
return False
def flip(robot):
rob = robot.robot
# A list of safe positions to flip
safe_positions = [(-0.18, -0.108, 0.35),
(0.18, -0.108, 0.35)]
# Find the closest safe position
curr_pos = rob.getl()[:3]
def dist_from_robot(pos):
x, y, z = pos
rx, ry, rz = curr_pos
return math.sqrt((rx-x)**2+(ry-y)**2+(rz-z)**2)
pos_dist_pairs = zip(safe_positions, [dist_from_robot(pos) for pos in safe_positions])
safe_pos = min(pos_dist_pairs, key=lambda x:x[1])[0]
# Flip at safe position
rob.movej(offset_gripper_angle(robot, *safe_pos, flip=is_flipped(robot)), vel=2, acc=2) # Move to safe position
rob.movej(offset_gripper_angle(robot, *safe_pos, flip=(not is_flipped(robot))), vel=2, acc=2) # Flip gripper
def safe_move(robot, x, y, z):
rob = robot.robot
flip_radius = 0.22 # Min radius on which to flip
r = math.sqrt(x**2 + y**2) # Get position radius
# Flip gripper if needed
if (r <= flip_radius and is_flipped(robot)) or (r > flip_radius and not is_flipped(robot)):
flip(robot)
rob.movej(offset_gripper_angle(robot, x, y, z, flip=is_flipped(robot)), vel=2, acc=2)
def pick_up_routine(robot, holder_index, verbose=False):
rob = robot.robot
if verbose:
print('Pickup routine for index', holder_index)
goto_holder_index(robot, holder_index, 0.2)
curr_pos = rob.getl()
new_pos = curr_pos
new_pos[2] = 0
rob.movel(new_pos, vel=0.3, acc=1)
# goto_holder_index(robot, holder_index, 0.0)
# Close Gripper code
time.sleep(0.5)
new_pos[2] = 0.2
rob.movel(new_pos, vel=0.3, acc=1)
was_flipped = is_flipped(robot)
# Tray position 1
rob.movej(offset_gripper_angle(robot, -0.15, -0.15, 0.3, flip=is_flipped(robot), use_closest_path=False), vel=2, acc=2)
rob.movej(get_joints_from_xyz_abs(robot, -0.35, -0.15, 0.0, math.pi/2, 0.1), vel=2, acc=2)
time.sleep(0.5)
# Back to safe position
rob.movej(offset_gripper_angle(robot, -0.205, -0.108, 0.3, flip=True), vel=2, acc=2)
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")
#init("192.168.1.145")
with open('config.yml', 'r') as fileread:
#global config
config = yaml.safe_load(fileread)
robot = Rob(config) # robot of type Rob is the custom class above
robot.init_arm()
rob = robot.robot # rob is robot.robot is the urx robot class, what we've been using previously
print("Current tool pose is: ", rob.getl())
move_to_home()
move_to_home(robot)
home_pose = [-0.4999999077032916,
-0.2000072960336574,
@ -312,18 +498,49 @@ if __name__ == "__main__":
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)
config = None
joints = []
for i in np.linspace(-0.2, -0.7, 10):
joints.append(get_joints_from_xyz_abs(robot, i, 0, 0))
# rob.movejs(joints, acc=2, vel=2, radius=0.1)
# rob.movej(offset_gripper_angle(robot, -0.15, -0.15, 0.3, gripperangle=90, flip=is_flipped(robot)), vel=2, acc=2)
# move_arc(0, 0.3, 0.1)
# move_arc(0, -0.3, 0.3)
for i in range(20, 25):
pick_up_routine(robot, i, verbose=True)
angles = get_joints_from_xyz_abs(-0.7, 0, 0)
rob.movej(angles, acc=2, vel=2)
# goto_holder_index(robot, 7, 0.0)
# pick_up_routine(robot, 8)
# rob.movej(get_joints_from_xyz_abs(robot, -0.35, -0.15, 0.0, math.pi/2, 0.1), vel=2, acc=2)
#rob.movej(goto_holder_index(24, 0.2, 0), acc=2, vel=2).
#joints = []
# angle = 30
# goto_holder_index(robot, 26, 0.1, angle)
# time.sleep(1)
# goto_holder_index(robot, 25, 0.1, angle)
# time.sleep(1)
# goto_holder_index(robot, 24, 0.1, angle)
#rob.movej(angles, acc=2, vel=2)
#time.sleep(10)
#rob.movejs(joints, acc=2, vel=2)
# joints = []
# for i in np.linspace(-0.3, -0.7, 50):
# joints.append(get_joints_from_xyz_abs(i, 0, 0))
@ -332,25 +549,6 @@ if __name__ == "__main__":
# time.sleep(5)
# angles = get_joints_from_xyz_abs(0, -0.6, 0)
# rob.movej(angles, acc=2, vel=2)
# 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())