Files
kabellaengen/lib/getpositions.py
T

217 lines
8.4 KiB
Python

import argparse
import configparser
import ezdxf.document
from ezdxf.math import Matrix44
import os
import sys
import math
import json
import re
from shapely import Point
"""
Dieses Programm:
- liest die dxf Datei und holt sich von den Layern der dxf Datei die Positionen
+ der Motoren, Sensoren und Aktoren
+ der Unterverteiler
+ der Polylinien der Kabelpritschen
- erzeugt daraus eine .json Datei im Work Ordner
"""
def write_results(jsnResults, outdir, filename):
""" write results to a json file
"""
print("writing results to a json file ...")
outfile = os.path.join(outdir, filename)
with open(outfile, 'w', encoding='utf-8') as fh:
fh.write(jsnResults)
print("done")
def merge_two_dicts(x, y):
z = x.copy()
z.update(y)
return z
def get_input_positions(msp: ezdxf.document.Drawing.modelspace):
"""hole alle Positionen der Eingänge !!Sensor Positionen erst nach Offsett-Addition "Mitte-Mitte"!!
"""
allIds = dict()
SpecialKeys = ["MB", # Separator
"MA", # Motor
"BG", # Stausensor
"FC" # Motorschutzschalter
]
# Über alle Blockreferenzen (INSERT) im Modelspace laufen
for insert in msp.query('INSERT'):
if len(insert.attribs) == 0:
continue # Überspringe Blöcke ohne Attribute
id = ""
ld = dict()
for attrib in insert.attribs:
if len(insert.attribs) == 0:
continue # Überspringe Blöcke ohne Attribute
#print(f"Attribut Name: {attrib.dxf.tag}, Wert: {attrib.dxf.text}")
ld[attrib.dxf.tag] = attrib.dxf.text
if attrib.dxf.tag == "IO":
id = attrib.dxf.text
# print(f"-- coord io {id}--: {attrib.dxf.insert}") # position des Blocks
if attrib.dxf.tag == "B":
for spec in SpecialKeys:
if spec in attrib.dxf.text:
id = attrib.dxf.text
#print(f"-- coord {attrib.dxf.text} --: {attrib.dxf.insert}")
if attrib.dxf.tag == "REALE_POSITION" and attrib.dxf.text == "x":
#print(f"-- coord real --: {attrib.dxf.insert}")
pos = attrib.dxf.insert #Position Ecke unten links von "x"-Marker auslesen
# Hoehe und Breite von "x" addieren, um Mittelpunkt zu finden
breite_marker = config.getfloat("Sensor_Marker", "Breite")
hoehe_marker = config.getfloat("Sensor_Marker", "Hoehe")
pos_midx = pos.x + breite_marker*0.5
pos_midy = pos.y + hoehe_marker*0.5
ld["pos"] = (round(pos_midx, 1), round(pos_midy, 1))
# Nur wenn eine ID vorhanden ist, und eine gültige Position existiert
if id and "pos" in ld and isinstance(ld["pos"], tuple) and len(ld["pos"]) == 2:
if id in allIds:
allIds[id] = merge_two_dicts(allIds[id], ld) #Kombiniert alle infos aus dxf und "pos"
else:
allIds[id] = ld
return allIds
def get_subdistributor_positions(msp):
"""hole alle Positionen der Unterverteiler !!UV-Positionen bereits "Mitte-Mitte"!!
"""
# # Über alle Texte laufen
# for text in msp.query('MTEXT'):
# print(f"Inhalt: {text.dxf.text}")
# print(f"Layer: {text.dxf.layer}")
# print(f"Einfügepunkt: {text.dxf.insert}")
# print(f"Breite: {text.dxf.width}")
# # print("Farbe:", text.dxf.color) # Achtung: 256 = "ByLayer"
# # print("Höhe (height):", text.dxf.height)
# # print("Rotation (degrees):", text.dxf.rotation)
# # print("Breitenfaktor (width factor):", text.dxf.width)
# # print("Style (Schriftart):", text.dxf.style)
# # print("Handle:", text.dxf.handle)
# print("---")
ret = dict()
# Alle Texte auf Layer "xy"
for text in msp.query('MTEXT[layer=="Busverteiler-Kennzeichnung"]'):
print(f"Text auf Layer 'Busverteiler-Kennzeichnung': {text.dxf.text}")
match = re.search(r"UC\w+", text.dxf.text)
if match:
nameUC = match.group(0)
ret[nameUC] = (round(text.dxf.insert[0],1), round(text.dxf.insert[1],1)) #nur x und y Koordinate in Json schreiben
return ret
# helper function
def print_line(e):
print("LINE on layer: %s\n" % e.dxf.layer)
print("points: %s\n" % repr(e.dxf))
def print_polyline(e):
print("POLYLINE on layer: %s\n" % e.dxf.layer)
#print("points: %s\n" % repr(e.dxf))
#print("y point: %s\n" % e.dxf.y)
for x, y, start_width, end_width, bulge in e.get_points(): # Gibt Tuple (x, y, start_width, end_width, bulge)
print(f" Punkt: ({x}, {y}), Startbreite: ({start_width}, Endbreite: {end_width})")
if e.is_closed:
print("Diese Polyline ist geschlossen.")
def get_rack_positions(msp):
"""hole alle Positionen aller Kabelpritschen und nummeriere Racks"""
ret = dict()
rack_counter = 1 #Zaehler für Rack Nummerierung
for e in msp.query('LWPOLYLINE[layer=="PRITSCHE_200-60"]'):
#print_polyline(e)
rack_key = f"Rack_{rack_counter}"
ret[rack_key] = list()
for x, y, start_width, end_width, bulge in e.get_points(): # Gibt Tuple (x, y, start_width, end_width, bulge)
p = [round(x,1), round(y,1)]
ret[rack_key].append(p)
rack_counter +=1
# iterate over all entities in modelspace
# for e in msp:
# if e.dxftype() == "LINE":
# print_line(e)
# if e.dxftype() == "LWPOLYLINE":
# print_polyline(e)
return ret
def to_json(d, pretty: bool = True) -> str:
return json.dumps(d, indent=2 if pretty else None, ensure_ascii=False, default=str) #ensure_ascii false für darstellung von "ue"
def get_dxf_file(filepath):
"""hole das dxf file
"""
try:
doc = ezdxf.readfile(filepath)
except IOError:
print(f"Not a DXF file or a generic I/O error.")
sys.exit(1)
except ezdxf.DXFStructureError:
print(f"Invalid or corrupted DXF file.")
sys.exit(2)
return doc
if __name__ == '__main__':
parser = argparse.ArgumentParser(description='fetches the x/y positions from a dxf file', prog='getpositions')
parser.add_argument('-f', '--filename', action='store', required=True, default="ST_6300_Steuerungstestlayout1_neueBloecke.dwg", help='which file should be fetched', metavar='myfile.dwg')
parser.add_argument('-s', '--sensors', action='store_true', help='fetch all position of sensors, motors, actors')
parser.add_argument('-d', '--dists', action='store_true', help='fetch all positions of all subdistributors')
parser.add_argument('-r', '--rack', action='store_true', help='fetch all positions of all cable racks')
parser.add_argument('-w', '--write', action='store_true', help='write results into a json file')
parser.add_argument('-c', '--console', action='store_true', help='print results to output')
args = parser.parse_args()
out_dir = os.environ.get('PROJECT_DATA')
work_dir = os.environ.get('PROJECT_WORK')
config_dir = os.environ.get("PROJECT_CFG")
filename = args.filename
dxf_path = os.path.join(work_dir, filename)
doc = get_dxf_file(dxf_path) # type: ignore
msp = doc.modelspace()
res_pos = dict()
res_dist = dict()
res_rac = dict()
if args.sensors or args.dists or args.rack:
config = configparser.ConfigParser(allow_no_value=True)
config.read(os.path.join(config_dir, "getpositions.cfg"))
output_results = dict()
if args.sensors:
res_pos = get_input_positions(msp)
output_results['sensors'] = res_pos
if args.console:
print(to_json(res_pos))
if args.dists:
res_dist = get_subdistributor_positions(msp)
output_results['distributors'] = res_dist
if args.console:
print(to_json(res_dist))
write_results(to_json(res_dist), work_dir, "subdistributors.json")
if args.rack:
res_rac = get_rack_positions(msp)
output_results['racks'] = res_rac
if args.console:
print(to_json(res_rac))
write_results(to_json(res_rac), work_dir, "racks.json")
if args.write:
basename = os.path.splitext(args.filename)[0]
write_results(to_json(output_results), work_dir, basename+"_positions.json")
else:
parser.print_help()