1191 lines
57 KiB
Python
1191 lines
57 KiB
Python
"""
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placeblocks.py
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Erzeugt DXF-Elemente aus einer RuleDesigner-CSV.
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"""
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import os
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import sys
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import csv
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import json
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import re
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import argparse
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import configparser
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import ezdxf
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from ezdxf import units
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from ezdxf.entities import Line
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from ezdxf.math import Matrix44
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from pathlib import Path
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import math
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from utils import check_environment_var, setup_logger
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# --------------------------------------------------------- CFG-Leser für shapes.cfg
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def get_shape_cfg(teileart, cfg_path, logger=None):
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parser = configparser.ConfigParser()
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try:
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with open(cfg_path, encoding='utf-8') as f:
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parser.read_file(f)
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except Exception as e:
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msg = f"Fehler beim Lesen der Config-Datei {cfg_path}: {e}"
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if logger:
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logger.error(msg)
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else:
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print(msg)
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return []
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section = teileart
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if section not in parser:
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return []
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# Blöcke
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items = parser.get(section, "items", fallback="").replace('"', '').split(",")
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blocks = [item.strip() for item in items if item.strip()]
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symbols = []
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for i, name in enumerate(blocks):
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# Offset
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offset_key = f"offset_symb{i+1}"
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offset_str = parser.get(section, offset_key, fallback="0,0")
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try:
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ox, oy = [float(x) for x in offset_str.split(",")]
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except Exception:
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ox, oy = 0.0, 0.0
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# Rotation
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rot_key = f"rot_symb{i+1}"
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rot_str = parser.get(section, rot_key, fallback="0.0")
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try:
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rot = float(rot_str)
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except Exception:
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rot = 0.0
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symbols.append({
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"name": name,
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"offset": (ox, oy),
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"rotation": rot
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})
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return symbols
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# --------------------------------------------------------- Konstante Parameter
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ATTR_TAG = "TeileId" # Attributtag im Block
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RADIUS = 400 # Radius der Kreiselkreise (mm)
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# --------------------------------------------------------- Hilfsfunktionen
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def extract_coords(planquadrat: str) -> tuple[float, float]:
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"""Extrahiert X/Y Koordinaten aus PlanquadratString."""
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m = re.search(r"X:(\d+[\.,]?\d*)\s+Y:(\d+[\.,]?\d*)", planquadrat)
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if not m:
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raise ValueError(f"Koordinaten nicht gefunden in: '{planquadrat}'")
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x, y = m.groups()
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return float(x.replace(",", ".")), float(y.replace(",", "."))
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def parse_merkmale(merkmale_str: str) -> dict:
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"""Parst Merkmale-JSON-String in dict; bei Fehler → leeres Dict."""
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try:
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return json.loads(merkmale_str)
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except json.JSONDecodeError:
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return {}
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def import_block(block_name: str, from_doc, to_doc) -> None:
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"""Importiert Blockdefinition block_name von from_doc nach to_doc.
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- Kopiert alle Entities des Blocks
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- Stellt sicher, dass benutzte Layer im Ziel existieren (mit Eigenschaften)
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- Übernimmt Basispunkt und Block-Layer, falls vorhanden
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"""
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if block_name in to_doc.blocks:
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return
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if block_name not in from_doc.blocks:
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raise ValueError(f"Block '{block_name}' nicht in Bibliothek gefunden.")
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src = from_doc.blocks[block_name]
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# Sicherstellen, dass alle verwendeten Layer existieren
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try:
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used_layer_names = {e.dxf.layer for e in src if hasattr(e.dxf, "layer")}
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for layer_name in used_layer_names:
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if layer_name and layer_name not in to_doc.layers:
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try:
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src_layer = from_doc.layers.get(layer_name)
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to_doc.layers.add(
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name=layer_name,
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color=getattr(src_layer.dxf, "color", None),
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linetype=getattr(src_layer.dxf, "linetype", None),
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lineweight=getattr(src_layer.dxf, "lineweight", None),
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)
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except Exception:
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# Fallback: Layer mit Standardwerten anlegen
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to_doc.layers.add(name=layer_name)
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except Exception:
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pass
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tgt = to_doc.blocks.new(name=block_name)
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# Basispunkt/Layer des Blocks übernehmen, wenn vorhanden
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try:
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tgt.block.dxf.base_point = src.block.dxf.base_point
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except Exception:
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pass
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try:
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tgt.block.dxf.layer = src.block.dxf.layer
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except Exception:
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pass
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for ent in src:
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if ent.dxftype() == "INSERT":
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import_block(ent.dxf.name,from_doc, to_doc)
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tgt.add_entity(ent.copy())
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def berechne_hoehe(csv_path, logger=None):
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y_werte = []
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try:
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with csv_path.open(newline="", encoding="utf-8") as fh:
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reader = csv.DictReader(fh, delimiter=';')
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for row in reader:
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planquadrat = row.get("Planquadrat", "")
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try:
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_, y = extract_coords(planquadrat)
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y_werte.append(y)
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except Exception as e:
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if logger:
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logger.warning(f"Fehler beim Extrahieren der Koordinate aus '{planquadrat}': {e}")
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except Exception as e:
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if logger:
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logger.error(f"Fehler beim Lesen der CSV-Datei {csv_path}: {e}")
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else:
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print(f"Fehler beim Lesen der CSV-Datei {csv_path}: {e}")
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return 0
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if not y_werte:
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msg = "Keine Y-Koordinaten in der CSV gefunden!"
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if logger:
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logger.error(msg)
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else:
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print(msg)
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raise ValueError(msg)
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return max(y_werte)
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def transform_coords(x: float, y: float, height: float) -> tuple[float, float]:
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"""Transformiert Bildschirmkoordinaten (0,0 oben links) ins DXF-KoSy (0,0 unten links)."""
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return x, y
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def handle_ils_2_0_kreisel(msp, teileid, merkmale, x, y, doc, lib_doc, verbose, symbols,gefaellestrecken_nachbarn,config):
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abstand_m = merkmale.get(
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"Abstand (Kreiselachse A - Kreiselachse) in Meter", "20"
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).replace(",", ".")
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try:
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abstand = float(abstand_m) * 1000 # Meter → mm
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except ValueError:
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abstand = 10000 # Fallback 10 m
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# Drehung (Winkel in Grad, Standard 0) aus Merkmale
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try:
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winkel = float(merkmale.get("Drehung", 90))
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except (ValueError, TypeError):
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winkel = 0.0
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winkel_rad = math.radians(winkel)
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# Die Koordinaten (x, y) sind die Mitte zwischen den beiden Blöcken (bereits transformiert)
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halbabstand = abstand / 2
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dx = halbabstand * math.cos(winkel_rad)
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dy = halbabstand * math.sin(winkel_rad)
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pos1 = (x - dx, y - dy,float(merkmale.get("Höhe in m"))* 1000)
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pos2 = (x + dx, y + dy, float(merkmale.get("Höhe in m"))* 1000)
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positions = [pos1, pos2]
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for i, sym in enumerate(symbols):
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blockname = sym["name"]
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offset = sym["offset"]
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rotation = sym["rotation"]
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if i < len(positions):
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pos = (positions[i][0] + offset[0], positions[i][1] + offset[1],float(merkmale.get("Höhe in m"))*1000)
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import_block(blockname, lib_doc, doc)
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blockref_layer = get_layer(doc, lib_doc, blockname)
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bref = msp.add_blockref(blockname, pos, dxfattribs={"rotation": merkmale.get("Drehung"), "layer" : blockref_layer})
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bref.add_auto_attribs({ATTR_TAG: teileid})
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if verbose:
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print(f"[INFO] Block '{blockname}' (Kreisel) → {teileid} "
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f"({pos[0]:.1f}, {pos[1]:.1f}), rot={rotation}")
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# Linien zeichnen
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draw_kreisel_lines(msp, pos1, pos2)
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draw_kreisel_drehrichtung_markierung(msp, pos1, pos2, merkmale, lib_doc, doc, verbose)
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def draw_kreisel_lines(msp, pos1, pos2):
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"""Zeichnet tangentiale Linien zwischen zwei Kreiselblöcken, unabhängig vom Winkel."""
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x1, y1, z1 = pos1
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x2, y2, z1 = pos2
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# Verbindungsvektor
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dx = x2 - x1
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dy = y2 - y1
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# Länge
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length = math.hypot(dx, dy)
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if length == 0:
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return # keine Linie bei identischen Punkten
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# Normalenvektor (senkrecht, normiert, Länge = RADIUS)
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nx = -dy / length * RADIUS
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ny = dx / length * RADIUS
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# Tangentialpunkte
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p1a = (x1 + nx, y1 + ny,z1)
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p1b = (x1 - nx, y1 - ny,z1)
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p2a = (x2 + nx, y2 + ny,z1)
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p2b = (x2 - nx, y2 - ny,z1)
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# Linien zeichnen
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msp.add_line(p1a, p2a)
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msp.add_line(p1b, p2b)
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def draw_kreisel_drehrichtung_markierung(msp, pos1, pos2, merkmale, lib_doc, doc, verbose):
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drehrichtung = merkmale.get("Drehrichtung", "").upper()
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if drehrichtung not in ("UZS", "GUZS"):
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return
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x1, y1,z1= pos1
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x2, y2,z2 = pos2
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dx = x2 - x1
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dy = y2 - y1
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length = math.hypot(dx, dy)
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if length == 0:
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return
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# Normalenvektor (senkrecht, normiert, Länge = RADIUS)
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nx = -dy / length * RADIUS
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ny = dx / length * RADIUS
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# Obere Linie
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p1_oben = (x1 + nx, y1 + ny)
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p2_oben = (x2 + nx, y2 + ny)
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# Untere Linie
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p1_unten = (x1 - nx, y1 - ny)
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p2_unten = (x2 - nx, y2 - ny)
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# S-LP auf oberer Linie (Drehrichtung wie angegeben)
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for i in range(1, 4):
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t = i / 4 # 1/4, 2/4, 3/4
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px = p1_oben[0] + t * (p2_oben[0] - p1_oben[0])
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py = p1_oben[1] + t * (p2_oben[1] - p1_oben[1])
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rotation = math.degrees(math.atan2(p2_oben[1] - p1_oben[1], p2_oben[0] - p1_oben[0]))
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if drehrichtung == "GUZS":
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rotation += 180
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import_block("S-LP", lib_doc, doc)
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blockref_layer = get_layer(doc, lib_doc, "S-LP")
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bref = msp.add_blockref("S-LP", (px, py,z1), dxfattribs={"rotation": rotation,"layer": blockref_layer})
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if verbose:
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print(f"[INFO] Drehrichtung '{drehrichtung}': S-LP oben bei ({px:.1f}, {py:.1f}), rot={rotation:.1f}")
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# S-LP auf unterer Linie (Drehrichtung invertiert)
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for i in range(1, 4):
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t = i / 4
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px = p1_unten[0] + t * (p2_unten[0] - p1_unten[0])
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py = p1_unten[1] + t * (p2_unten[1] - p1_unten[1])
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rotation = math.degrees(math.atan2(p2_unten[1] - p1_unten[1], p2_unten[0] - p1_unten[0]))
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if drehrichtung == "UZS":
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rotation += 180
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import_block("S-LP", lib_doc, doc)
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blockref_layer = get_layer(doc, lib_doc, "S-LP")
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bref = msp.add_blockref("S-LP", (px, py, z1), dxfattribs={"rotation": rotation , "layer": blockref_layer})
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if verbose:
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print(f"[INFO] Drehrichtung '{drehrichtung}': S-LP unten bei ({px:.1f}, {py:.1f}), rot={rotation:.1f}")
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def handle_standard(msp, blocknames, teileid, x, y, lib_doc, doc, verbose):
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for blockname in blocknames:
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import_block(blockname, lib_doc, doc)
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blockref_layer = get_layer(doc, lib_doc, blockname)
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bref = msp.add_blockref(blockname, (x, y), dxfattribs={"layer": blockref_layer})
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bref.add_auto_attribs({ATTR_TAG: teileid})
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if verbose:
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print(f"[INFO] Block '{blockname}' (Standard) → {teileid} "
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f"({x:.1f}, {y:.1f})")
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def handle_ils_2_0_gefaellestrecke(msp, teileid, merkmale, x, y, doc, lib_doc, verbose, symbols, gefaellestrecken_nachbarn,config):
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||
#Vorbereitung der attributen
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am_kreisel = 0
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richtung2 ="DEFAULT"
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unterschiedlich = False
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asoffset = float(config.get("ILS 2.0 Gefällestrecke", "asoffset"))
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esoffset = float(config.get("ILS 2.0 Gefällestrecke", "esoffset"))
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upper_hoehe_gefaehlle= float(merkmale.get("Höhe oben")) *1000
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lower_hoehe_gefaehlle = float(merkmale.get("Höhe unten")) * 1000
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hoehe_gefaehlle = (upper_hoehe_gefaehlle + lower_hoehe_gefaehlle)/2
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for nachbarn in gefaellestrecken_nachbarn:
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if teileid == nachbarn.get("Id"):
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gefaellestrecke_nachbarn = nachbarn
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break
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if "Drehung0" in gefaellestrecke_nachbarn and "Drehung1" in gefaellestrecke_nachbarn:
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drehung0 =gefaellestrecke_nachbarn.get("Drehung0")
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drehung1 = gefaellestrecke_nachbarn.get("Drehung1")
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hoehe0 = gefaellestrecke_nachbarn.get("Hoehe0")
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hoehe1 = gefaellestrecke_nachbarn.get("Hoehe1")
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x0_kreisel = float(gefaellestrecke_nachbarn.get("x0"))
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y0_kreisel = float(gefaellestrecke_nachbarn.get("y0"))
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x1_kreisel = float(gefaellestrecke_nachbarn.get("x1"))
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||
y1_kreisel = float(gefaellestrecke_nachbarn.get("y1"))
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richtung0 = float(gefaellestrecke_nachbarn.get("rotation0"))
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richtung1 = float(gefaellestrecke_nachbarn.get("rotation1"))
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richtung2 ="DEFAULT"
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richtung_rad0= math.radians(richtung0)
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richtung_rad1 = math.radians(richtung1)
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||
abstand0 = float(gefaellestrecke_nachbarn.get("abstand0")) * 1000
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||
abstand1 = float(gefaellestrecke_nachbarn.get("abstand1")) * 1000
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kreisel_verbunden = 0
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||
laenge_m = merkmale.get("Länge in Meter", "10").replace(",", ".")
|
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try:
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laenge = float(laenge_m) * 1000 # Meter → mm
|
||
except ValueError:
|
||
laenge = 10000 # F
|
||
|
||
|
||
#ausrechnung position kreisel
|
||
halbabstand0 = abstand0 / 2
|
||
dx0 = halbabstand0 * math.cos(richtung_rad0)
|
||
dy0 = halbabstand0 * math.sin(richtung_rad0)
|
||
pos0_0_floor= (math.floor(x0_kreisel + dx0),math.floor( y0_kreisel + dy0),hoehe0)
|
||
pos0_1_floor = (math.floor(x0_kreisel- dx0),math.floor( y0_kreisel- dy0), hoehe0)
|
||
pos0_0_round= (round(x0_kreisel + dx0),round( y0_kreisel + dy0),hoehe0)
|
||
pos0_1_round = (round(x0_kreisel- dx0),round( y0_kreisel- dy0), hoehe0)
|
||
|
||
halbabstand1 = abstand1 / 2
|
||
dx1 = halbabstand1 * math.cos(richtung_rad1 )
|
||
dy1 = halbabstand1 * math.sin(richtung_rad1)
|
||
pos1_0_floor = (math.floor(x1_kreisel + dx1), math.floor(y1_kreisel + dy1), hoehe1)
|
||
pos1_1_floor = (math.floor(x1_kreisel - dx1), math.floor(y1_kreisel - dy1), hoehe1)
|
||
pos1_0_round = (round(x1_kreisel + dx1), round(y1_kreisel + dy1), hoehe1)
|
||
pos1_1_round = (round(x1_kreisel - dx1), round(y1_kreisel - dy1), hoehe1)
|
||
winkel = math.radians(float(merkmale.get("Drehung")))
|
||
|
||
halbe_laenge = laenge / 2
|
||
dx = halbe_laenge *math.sin(winkel * -1)
|
||
dy = halbe_laenge * math.cos(winkel)
|
||
start_floor = (math.floor(x +dx ), math.floor(y + dy ),upper_hoehe_gefaehlle)
|
||
ende_floor = (math.floor(x -dx), math.floor(y - dy ) ,lower_hoehe_gefaehlle)
|
||
start_round = (round(x +dx ), round(y + dy ),upper_hoehe_gefaehlle)
|
||
ende_round= (round(x -dx), round(y - dy ) ,lower_hoehe_gefaehlle)
|
||
abstand_fuer_kreis_start_x_floor = start_floor[0] +RADIUS, start_floor[1]
|
||
abstand_gegen_kreis_start_x_floor = start_floor[0] -RADIUS, start_floor[1]
|
||
abstand_fuer_kreis_start_y_floor = start_floor[0], start_floor[1] + RADIUS
|
||
abstand_gegen_kreis_start_y_floor = start_floor[0], start_floor[1] - RADIUS
|
||
abstand_fuer_kreis_ende_x_floor= ende_floor[0] + RADIUS, ende_floor[1]
|
||
abstand_gegen_kreis_ende_x_floor= ende_floor[0] - RADIUS, ende_floor[1]
|
||
abstand_fuer_kreis_ende_y_floor = ende_floor[0] , ende_floor[1] + RADIUS
|
||
abstand_gegen_kreis_ende_y_floor = ende_floor[0] , ende_floor[1] - RADIUS
|
||
|
||
abstand_fuer_kreis_start_x_round= start_round[0] +RADIUS, start_round[1]
|
||
abstand_gegen_kreis_start_x_round = start_round[0] -RADIUS, start_round[1]
|
||
abstand_fuer_kreis_start_y_round = start_round[0], start_round[1] + RADIUS
|
||
abstand_gegen_kreis_start_y_round = start_round[0], start_round[1] - RADIUS
|
||
abstand_fuer_kreis_ende_x_round= ende_round[0] + RADIUS, ende_round[1]
|
||
abstand_gegen_kreis_ende_x_round= ende_round[0] - RADIUS, ende_round[1]
|
||
abstand_fuer_kreis_ende_y_round = ende_round[0] , ende_round[1] + RADIUS
|
||
abstand_gegen_kreis_ende_y_round = ende_round[0] , ende_round[1] - RADIUS
|
||
|
||
|
||
|
||
if( (abstand_fuer_kreis_start_x_floor[0] == pos0_0_floor[0] and abstand_fuer_kreis_start_x_floor[1] == pos0_0_floor[1] )or
|
||
( abstand_fuer_kreis_start_x_floor[0] == pos0_1_floor[0] and abstand_fuer_kreis_start_x_floor[1] == pos0_1_floor[1]) or
|
||
( abstand_gegen_kreis_start_x_floor[0] == pos0_0_floor[0] and abstand_gegen_kreis_start_x_floor[1] == pos0_0_floor[1]) or
|
||
( abstand_gegen_kreis_start_x_floor[0] == pos0_1_floor[0] and abstand_gegen_kreis_start_x_floor[1] == pos0_1_floor[1]) or
|
||
(abstand_fuer_kreis_ende_x_floor[0] == pos0_0_floor[0] and abstand_fuer_kreis_ende_x_floor[1] == pos0_0_floor[1] )or
|
||
( abstand_fuer_kreis_ende_x_floor[0] == pos0_1_floor[0] and abstand_fuer_kreis_ende_x_floor[1] == pos0_1_floor[1]) or
|
||
( abstand_gegen_kreis_ende_x_floor[0] == pos0_0_floor[0] and abstand_gegen_kreis_ende_x_floor[1] == pos0_0_floor[1]) or
|
||
( abstand_gegen_kreis_ende_x_floor[0] == pos0_1_floor[0] and abstand_gegen_kreis_ende_x_floor[1] == pos0_1_floor[1]) or
|
||
|
||
(abstand_fuer_kreis_start_y_floor[0] == pos0_0_floor[0] and abstand_fuer_kreis_start_y_floor[1] == pos0_0_floor[1] )or
|
||
( abstand_fuer_kreis_start_y_floor[0] == pos0_1_floor[0] and abstand_fuer_kreis_start_y_floor[1] == pos0_1_floor[1]) or
|
||
( abstand_gegen_kreis_start_y_floor[0] == pos0_0_floor[0] and abstand_gegen_kreis_start_y_floor[1] == pos0_0_floor[1]) or
|
||
( abstand_gegen_kreis_start_y_floor[0] == pos0_1_floor[0] and abstand_gegen_kreis_start_y_floor[1] == pos0_1_floor[1]) or
|
||
(abstand_fuer_kreis_ende_y_floor[0] == pos0_0_floor[0] and abstand_fuer_kreis_ende_y_floor[1] == pos0_0_floor[1] )or
|
||
( abstand_fuer_kreis_ende_y_floor[0] == pos0_1_floor[0] and abstand_fuer_kreis_ende_y_floor[1] == pos0_1_floor[1]) or
|
||
( abstand_gegen_kreis_ende_y_floor[0] == pos0_0_floor[0] and abstand_gegen_kreis_ende_y_floor[1] == pos0_0_floor[1]) or
|
||
( abstand_gegen_kreis_ende_y_floor[0] == pos0_1_floor[0] and abstand_gegen_kreis_ende_y_floor[1] == pos0_1_floor[1]) or
|
||
(abstand_fuer_kreis_start_x_round[0] == pos0_0_round[0] and abstand_fuer_kreis_start_x_round[1] == pos0_0_round[1] )or
|
||
( abstand_fuer_kreis_start_x_round[0] == pos0_1_round[0] and abstand_fuer_kreis_start_x_round[1] == pos0_1_round[1]) or
|
||
( abstand_gegen_kreis_start_x_round[0] == pos0_0_round[0] and abstand_gegen_kreis_start_x_round[1] == pos0_0_round[1]) or
|
||
( abstand_gegen_kreis_start_x_round[0] == pos0_1_round[0] and abstand_gegen_kreis_start_x_round[1] == pos0_1_round[1]) or
|
||
(abstand_fuer_kreis_ende_x_round[0] == pos0_0_round[0] and abstand_fuer_kreis_ende_x_round[1] == pos0_0_round[1] )or
|
||
( abstand_fuer_kreis_ende_x_round[0] == pos0_1_round[0] and abstand_fuer_kreis_ende_x_round[1] == pos0_1_round[1]) or
|
||
( abstand_gegen_kreis_ende_x_round[0] == pos0_0_round[0] and abstand_gegen_kreis_ende_x_round[1] == pos0_0_round[1]) or
|
||
( abstand_gegen_kreis_ende_x_round[0] == pos0_1_floor[0] and abstand_gegen_kreis_ende_x_round[1] == pos0_1_round[1]) or
|
||
|
||
(abstand_fuer_kreis_start_y_round[0] == pos0_0_round[0] and abstand_fuer_kreis_start_y_round[1] == pos0_0_round[1] )or
|
||
( abstand_fuer_kreis_start_y_round[0] == pos0_1_round[0] and abstand_fuer_kreis_start_y_round[1] == pos0_1_round[1]) or
|
||
( abstand_gegen_kreis_start_y_round[0] == pos0_0_round[0] and abstand_gegen_kreis_start_y_round[1] == pos0_0_round[1]) or
|
||
( abstand_gegen_kreis_start_y_round[0] == pos0_1_round[0] and abstand_gegen_kreis_start_y_round[1] == pos0_1_round[1]) or
|
||
(abstand_fuer_kreis_ende_y_round[0] == pos0_0_round[0] and abstand_fuer_kreis_ende_y_round[1] == pos0_0_round[1] )or
|
||
( abstand_fuer_kreis_ende_y_round[0] == pos0_1_round[0] and abstand_fuer_kreis_ende_y_round[1] == pos0_1_round[1]) or
|
||
( abstand_gegen_kreis_ende_y_round[0] == pos0_0_round[0] and abstand_gegen_kreis_ende_y_round[1] == pos0_0_round[1]) or
|
||
( abstand_gegen_kreis_ende_y_round[0] == pos0_1_round[0] and abstand_gegen_kreis_ende_y_round[1] == pos0_1_round[1])
|
||
):
|
||
kreisel_verbunden = kreisel_verbunden +1
|
||
am_kreisel = 1
|
||
|
||
|
||
|
||
if( (abstand_fuer_kreis_start_x_floor[0] == pos1_0_floor[0] and abstand_fuer_kreis_start_x_floor[1] == pos1_0_floor[1] )or
|
||
(abstand_fuer_kreis_start_x_floor[0] == pos1_1_floor[0] and abstand_fuer_kreis_start_x_floor[1] == pos1_1_floor[1]) or
|
||
(abstand_gegen_kreis_start_x_floor[0] == pos1_0_floor[0] and abstand_gegen_kreis_start_x_floor[1] == pos1_0_floor[1]) or
|
||
(abstand_gegen_kreis_start_x_floor[0] == pos1_1_floor[0] and abstand_gegen_kreis_start_x_floor[1] == pos1_1_floor[1]) or
|
||
(abstand_fuer_kreis_ende_x_floor[0] == pos1_0_floor[0] and abstand_fuer_kreis_ende_x_floor[1] == pos1_0_floor[1] )or
|
||
(abstand_fuer_kreis_ende_x_floor[0] == pos1_1_floor[0] and abstand_fuer_kreis_ende_x_floor[1] == pos1_1_floor[1]) or
|
||
(abstand_gegen_kreis_ende_x_floor[0] == pos1_0_floor[0] and abstand_gegen_kreis_ende_x_floor[1] == pos1_0_floor[1]) or
|
||
(abstand_gegen_kreis_ende_x_floor[0] == pos1_1_floor[0] and abstand_gegen_kreis_ende_x_floor[1] == pos1_1_floor[1]) or
|
||
|
||
(abstand_fuer_kreis_start_y_floor[0] == pos1_0_floor[0] and abstand_fuer_kreis_start_y_floor[1] == pos1_0_floor[1] )or
|
||
(abstand_fuer_kreis_start_y_floor[0] == pos1_1_floor[0] and abstand_fuer_kreis_start_y_floor[1] == pos1_1_floor[1]) or
|
||
(abstand_gegen_kreis_start_y_floor[0] == pos1_0_floor[0] and abstand_gegen_kreis_start_y_floor[1] == pos1_0_floor[1]) or
|
||
(abstand_gegen_kreis_start_y_floor[0] == pos1_1_floor[0] and abstand_gegen_kreis_start_y_floor[1] == pos1_1_floor[1]) or
|
||
(abstand_fuer_kreis_ende_y_floor[0] == pos1_0_floor[0] and abstand_fuer_kreis_ende_y_floor[1] == pos1_0_floor[1] )or
|
||
(abstand_fuer_kreis_ende_y_floor[0] == pos1_1_floor[0] and abstand_fuer_kreis_ende_y_floor[1] == pos1_1_floor[1]) or
|
||
(abstand_gegen_kreis_ende_y_floor[0] == pos1_0_floor[0] and abstand_gegen_kreis_ende_y_floor[1] == pos1_0_floor[1]) or
|
||
(abstand_gegen_kreis_ende_y_floor[0] == pos1_1_floor[0] and abstand_gegen_kreis_ende_y_floor[1] == pos1_1_floor[1]) or
|
||
|
||
|
||
|
||
|
||
(abstand_fuer_kreis_start_x_round[0] == pos1_0_round[0] and abstand_fuer_kreis_start_x_round[1] == pos1_0_round[1] )or
|
||
(abstand_fuer_kreis_start_x_round[0] == pos1_1_round[0] and abstand_fuer_kreis_start_x_round[1] == pos1_1_round[1]) or
|
||
(abstand_gegen_kreis_start_x_round[0] == pos1_0_round[0] and abstand_gegen_kreis_start_x_round[1] == pos1_0_round[1]) or
|
||
(abstand_gegen_kreis_start_x_round[0] == pos1_1_round[0] and abstand_gegen_kreis_start_x_round[1] == pos1_1_round[1]) or
|
||
(abstand_fuer_kreis_ende_x_round[0] == pos1_0_round[0] and abstand_fuer_kreis_ende_x_round[1] == pos1_0_round[1])or
|
||
(abstand_fuer_kreis_ende_x_round[0] == pos1_1_round[0] and abstand_fuer_kreis_ende_x_round[1] == pos1_1_round[1]) or
|
||
(abstand_gegen_kreis_ende_x_round[0] == pos1_0_round[0] and abstand_gegen_kreis_ende_x_round[1] == pos1_0_round[1]) or
|
||
(abstand_gegen_kreis_ende_x_round[0] == pos1_1_round[0] and abstand_gegen_kreis_ende_x_round[1] == pos1_1_round[1]) or
|
||
|
||
(abstand_fuer_kreis_start_y_round[0] == pos1_0_round[0] and abstand_fuer_kreis_start_y_round[1] == pos1_0_round[1] )or
|
||
(abstand_fuer_kreis_start_y_round[0] == pos1_1_round[0] and abstand_fuer_kreis_start_y_round[1] == pos1_1_round[1]) or
|
||
(abstand_gegen_kreis_start_y_round[0] == pos1_0_round[0] and abstand_gegen_kreis_start_y_round[1] == pos1_0_round[1]) or
|
||
(abstand_gegen_kreis_start_y_round[0] == pos1_1_round[0] and abstand_gegen_kreis_start_y_round[1] == pos1_1_round[1]) or
|
||
(abstand_fuer_kreis_ende_y_round[0] == pos1_0_round[0] and abstand_fuer_kreis_ende_y_round[1] == pos1_0_round[1] )or
|
||
(abstand_fuer_kreis_ende_y_round[0] == pos1_1_round[0] and abstand_fuer_kreis_ende_y_round[1] == pos1_1_round[1]) or
|
||
(abstand_gegen_kreis_ende_y_round[0] == pos1_0_round[0] and abstand_gegen_kreis_ende_y_round[1] == pos1_0_round[1]) or
|
||
(abstand_gegen_kreis_ende_y_round[0] == pos1_1_round[0] and abstand_gegen_kreis_ende_y_round[1] == pos1_1_round[1])
|
||
):
|
||
kreisel_verbunden = kreisel_verbunden +1
|
||
am_kreisel = 2
|
||
|
||
|
||
if kreisel_verbunden == 2:
|
||
start = x +dx, y + dy,upper_hoehe_gefaehlle
|
||
ende = x -dx, y - dy,lower_hoehe_gefaehlle
|
||
msp.add_line(start,ende)
|
||
return
|
||
|
||
|
||
|
||
if richtung0 == 90.0 or richtung0 ==270:
|
||
richtung0= "Vertikal"
|
||
else:
|
||
richtung0 = "Horinzontal"
|
||
if richtung1 == 90.0 or richtung1 ==270:
|
||
richtung1= "Vertikal"
|
||
else:
|
||
richtung1 = "Horinzontal"
|
||
|
||
|
||
|
||
|
||
if (richtung0 != richtung1 and kreisel_verbunden ==1):
|
||
if(
|
||
(abstand_fuer_kreis_start_y_floor[0] == pos0_0_floor[0] and abstand_fuer_kreis_start_y_floor[1] == pos0_0_floor[1])or
|
||
(abstand_fuer_kreis_start_y_floor[0] == pos0_1_floor[0] and abstand_fuer_kreis_start_y_floor[1] == pos0_1_floor[1]) or
|
||
(abstand_gegen_kreis_start_y_floor[0] == pos0_0_floor[0] and abstand_gegen_kreis_start_y_floor[1] == pos0_0_floor[1]) or
|
||
(abstand_gegen_kreis_start_y_floor[0] == pos0_1_floor[0] and abstand_gegen_kreis_start_y_floor[1] == pos0_1_floor[1]) or
|
||
(abstand_fuer_kreis_ende_y_floor[0] == pos0_0_floor[0] and abstand_fuer_kreis_ende_y_floor[1] == pos0_0_floor[1])or
|
||
(abstand_fuer_kreis_ende_y_floor[0] == pos0_1_floor[0] and abstand_fuer_kreis_ende_y_floor[1] == pos0_1_floor[1]) or
|
||
(abstand_gegen_kreis_ende_y_floor[0] == pos0_0_floor[0] and abstand_gegen_kreis_ende_y_floor[1] == pos0_0_floor[1]) or
|
||
(abstand_gegen_kreis_ende_y_floor[0] == pos0_1_floor[0] and abstand_gegen_kreis_ende_y_floor[1] == pos0_1_floor[1]) or
|
||
(abstand_fuer_kreis_start_y_round[0] == pos0_0_round[0] and abstand_fuer_kreis_start_y_round[1] == pos0_0_round[1])or
|
||
(abstand_fuer_kreis_start_y_round[0] == pos0_1_round[0] and abstand_fuer_kreis_start_y_round[1] == pos0_1_round[1]) or
|
||
(abstand_gegen_kreis_start_y_round[0] == pos0_0_round[0] and abstand_gegen_kreis_start_y_round[1] == pos0_0_round[1]) or
|
||
(abstand_gegen_kreis_start_y_round[0] == pos0_1_round[0] and abstand_gegen_kreis_start_y_round[1] == pos0_1_round[1]) or
|
||
(abstand_fuer_kreis_ende_y_round[0] == pos0_0_round[0] and abstand_fuer_kreis_ende_y_round[1] == pos0_0_round[1])or
|
||
(abstand_fuer_kreis_ende_y_round[0] == pos0_1_round[0] and abstand_fuer_kreis_ende_y_round[1] == pos0_1_round[1]) or
|
||
(abstand_gegen_kreis_ende_y_round[0] == pos0_0_round[0] and abstand_gegen_kreis_ende_y_round[1] == pos0_0_round[1]) or
|
||
(abstand_gegen_kreis_ende_y_round[0] == pos0_1_round[0] and abstand_gegen_kreis_ende_y_round[1] == pos0_1_round[1]) or
|
||
|
||
|
||
|
||
(abstand_fuer_kreis_start_y_floor[0] == pos1_0_floor[0] and abstand_fuer_kreis_start_y_floor[1] == pos1_0_floor[1] )or
|
||
( abstand_fuer_kreis_start_y_floor[0] == pos1_1_floor[0] and abstand_fuer_kreis_start_y_floor[1] == pos1_1_floor[1]) or
|
||
( abstand_gegen_kreis_start_y_floor[0] == pos1_0_floor[0] and abstand_gegen_kreis_start_y_floor[1] == pos1_0_floor[1]) or
|
||
( abstand_gegen_kreis_start_y_floor[0] == pos1_1_floor[0] and abstand_gegen_kreis_start_y_floor[1] == pos1_1_floor[1]) or
|
||
(abstand_fuer_kreis_ende_y_floor[0] == pos1_0_floor[0] and abstand_fuer_kreis_ende_y_floor[1] == pos1_0_floor[1] )or
|
||
( abstand_fuer_kreis_ende_y_floor[0] == pos1_1_floor[0] and abstand_fuer_kreis_ende_y_floor[1] == pos1_1_floor[1]) or
|
||
( abstand_gegen_kreis_ende_y_floor[0] == pos1_0_floor[0] and abstand_gegen_kreis_ende_y_floor[1] == pos1_0_floor[1]) or
|
||
( abstand_gegen_kreis_ende_y_floor[0] == pos1_1_floor[0] and abstand_gegen_kreis_ende_y_floor[1] == pos1_1_floor[1]) or
|
||
|
||
(abstand_fuer_kreis_start_y_round[0] == pos1_0_round[0] and abstand_fuer_kreis_start_y_round[1] == pos1_0_round[1] )or
|
||
( abstand_fuer_kreis_start_y_round[0] == pos1_1_round[0] and abstand_fuer_kreis_start_y_round[1] == pos1_1_round[1]) or
|
||
( abstand_gegen_kreis_start_y_round[0] == pos1_0_round[0] and abstand_gegen_kreis_start_y_round[1] == pos1_0_round[1]) or
|
||
( abstand_gegen_kreis_start_y_round[0] == pos1_1_round[0] and abstand_gegen_kreis_start_y_round[1] == pos1_1_round[1]) or
|
||
(abstand_fuer_kreis_ende_y_round[0] == pos1_0_round[0] and abstand_fuer_kreis_ende_y_round[1] == pos1_0_round[1] )or
|
||
( abstand_fuer_kreis_ende_y_round[0] == pos1_1_round[0] and abstand_fuer_kreis_ende_y_round[1] == pos1_1_round[1]) or
|
||
( abstand_gegen_kreis_ende_y_round[0] == pos1_0_round[0] and abstand_gegen_kreis_ende_y_round[1] == pos1_0_round[1]) or
|
||
( abstand_gegen_kreis_ende_y_round[0] == pos1_1_round[0] and abstand_gegen_kreis_ende_y_round[1] == pos1_1_round[1])
|
||
):
|
||
richtung2= "Vertikal"
|
||
else:
|
||
richtung2 = "Horinzontal"
|
||
unterschiedlich = True
|
||
#Berechnung des Gefälles
|
||
|
||
if hoehe0 > hoehe1:
|
||
hight_position = "higher"
|
||
else:
|
||
hight_position = "lower"
|
||
if richtung2 == "DEFAULT":
|
||
if richtung0 == "Vertikal":
|
||
if x0_kreisel < x1_kreisel:
|
||
position = hight_position + "_links"
|
||
else:
|
||
position = hight_position + "_rechts"
|
||
else:
|
||
if y0_kreisel > y1_kreisel:
|
||
position = hight_position + "_higher"
|
||
else:
|
||
position = hight_position + "_lower"
|
||
|
||
if richtung0 == "Vertikal":
|
||
if position == "lower_rechts" or position == "higher_links":
|
||
gefaelle = "links"
|
||
else:
|
||
gefaelle = "rechts"
|
||
elif richtung0 == "Horinzontal":
|
||
if position == "lower_lower" or position == "higher_higher":
|
||
gefaelle = "oben"
|
||
else:
|
||
gefaelle = "unten"
|
||
|
||
if kreisel_verbunden == 1 and am_kreisel ==2:
|
||
am_kreisel == 1
|
||
|
||
drehung_2 = drehung0
|
||
drehung0 = drehung1
|
||
drehung1= drehung_2
|
||
if hight_position == "higher":
|
||
hight_position = "lower"
|
||
else:
|
||
hight_position = "higher"
|
||
|
||
else:
|
||
if richtung2 == "Vertikal":
|
||
if x0_kreisel < x1_kreisel:
|
||
position = hight_position + "_links"
|
||
else:
|
||
position = hight_position + "_rechts"
|
||
else:
|
||
if y0_kreisel > y1_kreisel:
|
||
position = hight_position + "_higher"
|
||
else:
|
||
position = hight_position + "_lower"
|
||
|
||
if richtung2 == "Vertikal":
|
||
if position == "lower_rechts" or position == "higher_links":
|
||
gefaelle = "links"
|
||
else:
|
||
gefaelle = "rechts"
|
||
elif richtung2 == "Horinzontal":
|
||
if position == "lower_lower" or position == "higher_higher":
|
||
gefaelle = "oben"
|
||
else:
|
||
gefaelle = "unten"
|
||
|
||
if am_kreisel == 2:
|
||
|
||
am_kreisel = 1
|
||
drehung_2 = drehung0
|
||
drehung0 = drehung1
|
||
drehung1= drehung_2
|
||
if hight_position == "higher":
|
||
hight_position = "lower"
|
||
else:
|
||
hight_position = "higher"
|
||
|
||
#
|
||
blockname = f"Ils_2.0_Gefaellestrecke_{laenge}_{hoehe_gefaehlle}_{drehung0}_{drehung1}_{hight_position}_{unterschiedlich}_{teileid}"
|
||
if gefaelle == "oben":
|
||
rotation = 0
|
||
elif gefaelle == "unten" :
|
||
rotation = 180
|
||
elif gefaelle == "links" :
|
||
rotation = 90
|
||
elif gefaelle == "rechts" :
|
||
rotation = 270
|
||
|
||
|
||
|
||
if (kreisel_verbunden == 1 and richtung2 =="DEFAULT"):
|
||
richtung2 = richtung0
|
||
|
||
|
||
gefaellegerade_erstellung(x, y, doc, lib_doc, asoffset, esoffset, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, hoehe_gefaehlle,richtung0,richtung1,richtung2, am_kreisel,drehung0, drehung1, laenge, hight_position, blockname)
|
||
|
||
|
||
|
||
bref =msp.add_blockref(blockname,(x,y,hoehe_gefaehlle),dxfattribs={"rotation": rotation})
|
||
bref.add_attrib(
|
||
tag= "NAME",
|
||
text= merkmale.get("bezeichner"),
|
||
insert = (x,y)
|
||
|
||
|
||
)
|
||
else:
|
||
laenge_m = merkmale.get("Länge in Meter", "10").replace(",", ".")
|
||
try:
|
||
laenge = float(laenge_m) * 1000 # Meter → mm
|
||
except ValueError:
|
||
laenge = 10000
|
||
|
||
winkel = math.radians(float(merkmale.get("Drehung")))
|
||
halbe_laenge = laenge / 2
|
||
dx = halbe_laenge *math.sin(winkel * -1)
|
||
dy = halbe_laenge * math.cos(winkel)
|
||
start = x +dx, y + dy,upper_hoehe_gefaehlle
|
||
ende = x -dx, y - dy,lower_hoehe_gefaehlle
|
||
msp.add_line(start,ende)
|
||
|
||
|
||
def gefaellegerade_erstellung(x, y, doc, lib_doc, asoffset, esoffset, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, hoehe_gefaehlle,richtung0,richtun1,richtung2,am_kreisel, drehung0, drehung1, laenge, hight_position, blockname):
|
||
if richtung2!= "DEFAULT":
|
||
if blockname not in doc.blocks and drehung0 == "GUZS" and drehung1 == "GUZS" and hight_position == "higher" :
|
||
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy + esoffset,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
block_es = "200000146_ES-Element_90_rechts"
|
||
import_block(block_es,lib_doc,doc)
|
||
|
||
block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset-y ,ende[2] -hoehe_gefaehlle))
|
||
elif blockname not in doc.blocks and drehung0 == "GUZS" and drehung1 == "GUZS":
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy - asoffset,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy ,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
block_as = "200000241_AS-Element_90_rechts"
|
||
import_block(block_as,lib_doc,doc)
|
||
|
||
block.add_blockref(block_as,(start[0]-x ,start[1]+asoffset -y,start[2] -hoehe_gefaehlle))
|
||
elif blockname not in doc.blocks and ((drehung0 == "GUZS" and drehung1 == "UZS" and hight_position == "higher")):
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy ,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy + esoffset,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
|
||
block_es = "400102632_ES-Element_90_links"
|
||
import_block(block_es,lib_doc,doc)
|
||
block.add_blockref(block_es,(ende[0]-x ,ende[1]-esoffset -y,ende[2]), dxfattribs={"rotation": 180})
|
||
elif blockname not in doc.blocks and (drehung0 == "UZS" and drehung1 == "GUZS" and hight_position == "lower"):
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy - asoffset,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy ,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
block_as = "200000241_AS-Element_90_rechts"
|
||
|
||
import_block(block_as,lib_doc,doc)
|
||
block.add_blockref(block_as,(start[0]-x ,start[1]+asoffset -y,start[2]))
|
||
elif blockname not in doc.blocks and drehung0 == "UZS" and drehung1 == "UZS" and hight_position == "higher":
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy ,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy + esoffset,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x ,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
|
||
block_es = "400102632_ES-Element_90_links"
|
||
import_block(block_es,lib_doc,doc)
|
||
|
||
|
||
|
||
block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset -y,ende[2]),dxfattribs={"rotation": 180})
|
||
|
||
elif blockname not in doc.blocks and drehung0 == "UZS" and drehung1 == "UZS":
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy - asoffset,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy ,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x ,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
block_as = "200000217_AS-Element_90_links"
|
||
import_block(block_as,lib_doc,doc)
|
||
|
||
block.add_blockref(block_as,(start[0]-x ,start[1]+asoffset -y,start[2]),dxfattribs={"rotation": 180})
|
||
|
||
|
||
elif blockname not in doc.blocks and ((drehung0 == "UZS" and drehung1 == "GUZS" and hight_position== "higher")):
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy + esoffset,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x ,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
|
||
block_es = "200000146_ES-Element_90_rechts"
|
||
import_block(block_es,lib_doc,doc)
|
||
|
||
block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset -y,ende[2]))
|
||
elif blockname not in doc.blocks and (drehung0 == "GUZS" and drehung1 == "UZS" and hight_position == "lower"):
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy - asoffset,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy ,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x ,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
block_as = "200000217_AS-Element_90_links"
|
||
import_block(block_as,lib_doc,doc)
|
||
|
||
block.add_blockref(block_as,(start[0]-x ,start[1]+asoffset -y,start[2]),dxfattribs={"rotation": 180})
|
||
|
||
else:
|
||
if blockname not in doc.blocks and drehung0 == "GUZS" and drehung1 == "GUZS" :
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy - asoffset,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy + esoffset,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
block_as = "200000241_AS-Element_90_rechts"
|
||
import_block(block_as,lib_doc,doc)
|
||
block_es = "200000146_ES-Element_90_rechts"
|
||
import_block(block_es,lib_doc,doc)
|
||
block.add_blockref(block_as,(start[0]-x ,start[1]+asoffset -y,start[2] -hoehe_gefaehlle))
|
||
block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset-y ,ende[2] -hoehe_gefaehlle))
|
||
|
||
elif blockname not in doc.blocks and ((drehung0 == "GUZS" and drehung1 == "UZS" and hight_position == "higher")or (drehung0 == "UZS" and drehung1 == "GUZS" and hight_position == "lower")):
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy - asoffset,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy + esoffset,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
block_as = "200000241_AS-Element_90_rechts"
|
||
import_block(block_as,lib_doc,doc)
|
||
block_es = "400102632_ES-Element_90_links"
|
||
import_block(block_es,lib_doc,doc)
|
||
block.add_blockref(block_as,(start[0]-x ,start[1]+asoffset -y,start[2]))
|
||
block.add_blockref(block_es, (ende[0]-x ,ende[1]- esoffset-y,ende[2]),dxfattribs={"rotation": 180})
|
||
|
||
|
||
elif blockname not in doc.blocks and drehung0 == "UZS" and drehung1 == "UZS":
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy - asoffset,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy + esoffset,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x ,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
block_as = "200000217_AS-Element_90_links"
|
||
import_block(block_as,lib_doc,doc)
|
||
block_es = "400102632_ES-Element_90_links"
|
||
import_block(block_es,lib_doc,doc)
|
||
|
||
block.add_blockref(block_as,(start[0]-x ,start[1]+asoffset -y,start[2]),dxfattribs={"rotation": 180})
|
||
|
||
block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset -y,ende[2]),dxfattribs={"rotation": 180})
|
||
|
||
|
||
elif blockname not in doc.blocks and ((drehung0 == "UZS" and drehung1 == "GUZS" and hight_position== "higher")or (drehung0 == "GUZS" and drehung1 == "UZS" and hight_position == "lower")):
|
||
block = doc.blocks.new(name=blockname, base_point=(0,0,0))
|
||
halbe_laenge = laenge / 2
|
||
|
||
dy = halbe_laenge * math.cos(0)
|
||
start = (x , y + dy - asoffset,upper_hoehe_gefaehlle)
|
||
ende = (x , y - dy + esoffset,lower_hoehe_gefaehlle)
|
||
line = Line.new(dxfattribs={"start": start, "end": ende})
|
||
copy= line.copy()
|
||
|
||
copy.translate(-x ,-y,-hoehe_gefaehlle)
|
||
block.add_entity(copy)
|
||
block_as = "200000217_AS-Element_90_links"
|
||
import_block(block_as,lib_doc,doc)
|
||
block_es = "200000146_ES-Element_90_rechts"
|
||
import_block(block_es,lib_doc,doc)
|
||
|
||
block.add_blockref(block_as,(start[0]-x ,start[1]+asoffset -y,start[2]),dxfattribs={"rotation": 180})
|
||
|
||
block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset -y,ende[2]))
|
||
|
||
def handle_omniflo(msp, teileid, merkmale, x, y, doc, lib_doc, verbose, symbols, gefaellestrecken_nachbarn,config):
|
||
"""
|
||
Für Omniflo Gerade: zeichnet eine Linie (Mitte = Koordinate, Länge und Winkel aus Merkmale).
|
||
Für alle anderen Omniflo-Typen: Block mit SivasNummer an den Koordinaten.
|
||
"""
|
||
# Prüfen, ob es sich um eine Gerade handelt
|
||
if merkmale.get("Länge in Meter") is not None and merkmale.get("Winkel") is not None:
|
||
try:
|
||
laenge = float(merkmale.get("Länge in Meter", "0").replace(",", ".")) * 1000 # Meter → mm
|
||
except Exception:
|
||
laenge = 0
|
||
try:
|
||
winkel = float(merkmale.get("Drehung"))
|
||
except Exception:
|
||
winkel = 0.0
|
||
|
||
winkel_rad = math.radians(winkel)
|
||
halbe_laenge = laenge / 2
|
||
# Man muss bei sin -1 machen wegen des links koordinaten system
|
||
dx = halbe_laenge * math.sin(winkel_rad * -1)
|
||
dy = halbe_laenge * math.cos(winkel_rad)
|
||
start = (x + dx, y + dy, float(merkmale.get("Höhe oben")) )
|
||
ende = (x - dx, y - dy, float(merkmale.get("Höhe unten")))
|
||
if "A-2" not in doc.layers:
|
||
doc.layers.add(name="A-2", color=2)
|
||
linie=msp.add_line(start, ende)
|
||
linie.dxf.layer = "A-2"
|
||
|
||
|
||
if verbose:
|
||
print(f"[INFO] Omniflo Gerade → {teileid} Linie von ({start[0]:.1f}, {start[1]:.1f}) nach ({ende[0]:.1f}, {ende[1]:.1f})")
|
||
return
|
||
# Sonst wie gehabt: Block mit SivasNummer
|
||
if not lib_doc:
|
||
print("[WARN] lib_doc nicht verfügbar, Block wird nicht eingefügt.")
|
||
return
|
||
blockname = merkmale.get("SivasNummer")
|
||
if not blockname:
|
||
print(f"[WARN] Keine SivasNummer für {teileid}, überspringe.")
|
||
return
|
||
if blockname not in lib_doc.blocks:
|
||
print(f"[WARN] Omniflo-Block '{blockname}' nicht in Bibliothek {lib_doc.filename}. Überspringe {teileid}.")
|
||
return
|
||
import_block(blockname, lib_doc, doc)
|
||
blockref_layer = get_layer(doc, lib_doc, blockname)
|
||
drehung = merkmale.get("Drehung")
|
||
|
||
bref = msp.add_blockref(blockname, (x, y,float(merkmale.get("Höhe"))), dxfattribs={"xscale": 1.0, "yscale":1.0,"rotation": drehung, "layer": blockref_layer})
|
||
|
||
a =bref.add_attrib(
|
||
tag= "NAME",
|
||
text= merkmale.get("bezeichner"),
|
||
insert = (x,y)
|
||
|
||
|
||
)
|
||
a.is_invisible = True
|
||
bref.add_auto_attribs({ATTR_TAG: teileid})
|
||
if verbose:
|
||
print(f"[INFO] Block '{blockname}' (Omniflo) → {teileid} ({x:.1f}, {y:.1f})")
|
||
|
||
|
||
|
||
|
||
def get_layer(doc, lib_doc, blockname):
|
||
src = lib_doc.blocks[blockname]
|
||
try:
|
||
used_layer_names = {e.dxf.layer for e in src if hasattr(e.dxf, "layer")}
|
||
for layer_name in used_layer_names:
|
||
if layer_name and layer_name not in doc.layers:
|
||
try:
|
||
src_layer = lib_doc.layers.get(layer_name)
|
||
doc.layers.add(
|
||
name=layer_name,
|
||
color=getattr(src_layer.dxf, "color", None),
|
||
linetype=getattr(src_layer.dxf, "linetype", None),
|
||
lineweight=getattr(src_layer.dxf, "lineweight", None),
|
||
)
|
||
except Exception:
|
||
# Fallback: Layer mit Standardwerten anlegen
|
||
doc.layers.add(name=layer_name)
|
||
except Exception:
|
||
pass
|
||
layer_counts = {}
|
||
for e in src:
|
||
ln = getattr(e.dxf, "layer", None)
|
||
if not ln:
|
||
continue
|
||
if ln != "BOUNDING_BOX":
|
||
layer_counts[ln] = layer_counts.get(ln, 0) + 1
|
||
if layer_counts:
|
||
blockref_layer = max(layer_counts.items(), key=lambda kv: kv[1])[0]
|
||
return blockref_layer
|
||
|
||
def normalize_func_name(name):
|
||
return (
|
||
name.replace('ä', 'ae')
|
||
.replace('ö', 'oe')
|
||
.replace('ü', 'ue')
|
||
.replace('ß', 'ss')
|
||
.replace(' ', '_')
|
||
.replace('.', '_')
|
||
.lower()
|
||
)
|
||
|
||
def get_libfile_cfg(teileart, cfg_path):
|
||
"""Liest den Bibliotheksdateinamen für eine TeileArt aus der allgemein.cfg."""
|
||
parser = configparser.ConfigParser()
|
||
with open(cfg_path, encoding='utf-8') as f:
|
||
parser.read_file(f)
|
||
# Teileart kann z.B. "ILS 2.0 Kreisel" sein, wir nehmen den ersten Teil vor erstem Leerzeichen oder Punkt
|
||
# oder suchen iterativ nach Sektionen, die im Teileart-Namen vorkommen
|
||
for section in parser.sections():
|
||
if section in teileart:
|
||
return parser.get(section, "libfile", fallback=None)
|
||
return None
|
||
|
||
|
||
def get_rotations_of_gefaellestrecke(csv_path:Path) -> dict:
|
||
gefaehlleStrecken = []
|
||
kreisel =[]
|
||
gefaellestrecken_nachbarn = []
|
||
anweisungen = 0
|
||
"""Gib für jede gefällestrecke zurück welche Drehrichtung die benachbarten Kreisel haben """
|
||
with csv_path.open(newline="", encoding="utf-8") as fh:
|
||
reader = csv.DictReader(fh, delimiter=';')
|
||
for row in reader:
|
||
bezeichner = row["TeileArt"].strip()
|
||
if bezeichner == "ILS 2.0 Gefällestrecke":
|
||
Id = row["TeileId"].strip()
|
||
NachbarIds = row["NachbarIds"].strip()
|
||
|
||
gefaehlleStrecken.append({"Id": Id, "NachbarIds": NachbarIds})
|
||
if bezeichner == "ILS 2.0 Kreisel":
|
||
Id = row["TeileId"].strip()
|
||
planquadrat = row["Planquadrat"]
|
||
x, y = extract_coords(planquadrat)
|
||
merkmale = parse_merkmale(row.get("Merkmale", ""))
|
||
drehung = merkmale.get("Drehrichtung")
|
||
rotation = merkmale.get("Drehung")
|
||
hight = float(merkmale.get("Höhe in m")) *1000
|
||
abstand_m = merkmale.get(
|
||
"Abstand (Kreiselachse A - Kreiselachse) in Meter", "20"
|
||
).replace(",", ".")
|
||
kreisel.append({"Id":Id, "drehung":drehung, "höhe":hight,"x": x, "y": y, "rotation": rotation,"abstand":abstand_m})
|
||
|
||
|
||
for gefaelle in gefaehlleStrecken:
|
||
anweisungen = 0
|
||
eintrag = {"Id": gefaelle["Id"]}
|
||
for kreis in kreisel:
|
||
if kreis["Id"] in gefaelle["NachbarIds"]:
|
||
if anweisungen == 0:
|
||
eintrag["Drehung0"] = kreis.get("drehung")
|
||
eintrag["Hoehe0"] = kreis.get("höhe")
|
||
eintrag["x0"] = kreis.get("x")
|
||
eintrag["y0"] = kreis.get("y")
|
||
eintrag["rotation0"] = kreis.get("rotation")
|
||
eintrag["abstand0"] = kreis.get("abstand")
|
||
anweisungen = 1
|
||
elif anweisungen == 1:
|
||
eintrag["Drehung1"] = kreis.get("drehung")
|
||
eintrag["Hoehe1"] = kreis.get("höhe")
|
||
eintrag["x1"] = kreis.get("x")
|
||
eintrag["y1"] = kreis.get("y")
|
||
eintrag["rotation1"] = kreis.get("rotation")
|
||
eintrag["abstand1"] = kreis.get("abstand")
|
||
break
|
||
gefaellestrecken_nachbarn.append(eintrag)
|
||
|
||
return gefaellestrecken_nachbarn
|
||
|
||
|
||
|
||
|
||
# --------------------------------------------------------- Hauptfunktion
|
||
def main(csv_path: Path, lib_path: Path, cfg_path: Path,
|
||
output_path: Path, verbose=False, logger=None):
|
||
|
||
# Bibliothek nur laden, wenn Datei existiert
|
||
check_dxflibrary_path(lib_path, verbose, logger)
|
||
parser = configparser.ConfigParser()
|
||
try:
|
||
with open(cfg_path, encoding='utf-8') as f:
|
||
parser.read_file(f)
|
||
except Exception as e:
|
||
msg = f"Fehler beim Lesen der Config-Datei {cfg_path}: {e}"
|
||
# Neue Zielzeichnung (DXF R2018)
|
||
config =parser
|
||
doc = ezdxf.new(dxfversion="R2018")
|
||
doc.units = units.M
|
||
doc.header['$INSUNITS'] = 4 # Millimeter
|
||
msp = doc.modelspace()
|
||
|
||
# Höhe bestimmen für Koordinaten-Transformation
|
||
try:
|
||
height = berechne_hoehe(csv_path, logger=logger)
|
||
except Exception as e:
|
||
msg = f"Fehler bei der Höhenberechnung: {e}"
|
||
if logger:
|
||
logger.error(msg)
|
||
else:
|
||
print(msg)
|
||
sys.exit(1)
|
||
|
||
blocklib_dir = data_dir / "block_libraries"
|
||
lib_docs = dict()
|
||
|
||
gefaellestrecken_nachbarn = get_rotations_of_gefaellestrecke(csv_path)
|
||
# gibt zu jeder ShapeId einer Gefällestrecke zurück, ob sich der jeweilige Kreisel im UZ oder GUZ dreht
|
||
# rot_of_gf["shape_3ae53a7b-efb8-f66b-eadc-20b99f949ef1"] = ('UZ', 'GUZ')
|
||
|
||
# Verarbeitung der Blöcke
|
||
with csv_path.open(newline="", encoding="utf-8") as fh:
|
||
reader = csv.DictReader(fh, delimiter=';')
|
||
for row in reader:
|
||
bezeichner = row["Bezeichnung"].strip()
|
||
teileart = row["TeileArt"].strip()
|
||
teileid = row["TeileId"].strip()
|
||
planquadrat = row["Planquadrat"]
|
||
merkmale = parse_merkmale(row.get("Merkmale", ""))
|
||
merkmale["bezeichner"] = bezeichner
|
||
|
||
|
||
try:
|
||
x_screen, y_screen = extract_coords(planquadrat)
|
||
x, y = transform_coords(x_screen, y_screen, height)
|
||
except Exception as e:
|
||
msg = f"[WARN] {teileid}: {e}"
|
||
if logger:
|
||
logger.warning(msg)
|
||
else:
|
||
print(msg)
|
||
continue
|
||
|
||
# Bibliotheksdatei bestimmen
|
||
libfile = get_libfile_cfg(teileart, allgemein_cfg_path)
|
||
if libfile:
|
||
lib_path = blocklib_dir / libfile
|
||
else:
|
||
lib_path = default_lib_path
|
||
|
||
# Bibliothek laden (mit Cache)
|
||
lib_doc = None
|
||
if lib_path in lib_docs:
|
||
lib_doc = lib_docs[lib_path]
|
||
elif lib_path.exists():
|
||
try:
|
||
lib_doc = ezdxf.readfile(lib_path)
|
||
lib_docs[lib_path] = lib_doc
|
||
if verbose:
|
||
print(f"[INFO] Bibliothek geladen: {lib_path}")
|
||
except Exception as e:
|
||
print(f"[WARN] Fehler beim Lesen der Bibliothek '{lib_path}': {e}")
|
||
else:
|
||
print(f"[INFO] Keine Bibliothek gefunden unter {lib_path}. Komplexe Formen werden übersprungen.")
|
||
|
||
# Funktions-Dispatch: handle_<teileart> (mit _ statt Leerzeichen und Punkten, alles klein)
|
||
func_name = f'handle_{normalize_func_name(teileart)}'
|
||
handler = globals().get(func_name)
|
||
symbols = get_shape_cfg(teileart, cfg_path, logger=logger)
|
||
# Mapping für Omniflo-Typen
|
||
if func_name.startswith('handle_omniflo'):
|
||
handler = globals().get('handle_omniflo')
|
||
if handler:
|
||
handler(msp, teileid, merkmale, x, y, doc, lib_doc, verbose, symbols, gefaellestrecken_nachbarn, config)
|
||
else:
|
||
msg = f"[WARN] Keine Routine für TeileArt '{teileart}'. Überspringe '{teileid}'."
|
||
if logger:
|
||
logger.warning(msg)
|
||
else:
|
||
print(msg)
|
||
continue
|
||
|
||
# DXF speichern
|
||
doc.saveas(output_path)
|
||
if logger:
|
||
logger.info(f"[DONE] DXF gespeichert unter: {output_path}")
|
||
else:
|
||
print(f"[DONE] DXF gespeichert unter: {output_path}")
|
||
|
||
def check_dxflibrary_path(lib_path, verbose, logger):
|
||
lib_doc = None
|
||
if lib_path.exists():
|
||
try:
|
||
lib_doc = ezdxf.readfile(lib_path)
|
||
if verbose:
|
||
logger.info(f"[INFO] Bibliothek geladen: {lib_path}") if logger else print(f"[INFO] Bibliothek geladen: {lib_path}")
|
||
except Exception as e:
|
||
msg = f"Fehler beim Lesen der Bibliothek '{lib_path}': {e}"
|
||
if logger:
|
||
logger.error(msg)
|
||
else:
|
||
print(msg)
|
||
sys.exit(1)
|
||
else:
|
||
msg = f"[INFO] Keine Bibliothek gefunden unter {lib_path}."
|
||
if logger:
|
||
logger.error(msg)
|
||
else:
|
||
print(msg)
|
||
sys.exit(1)
|
||
|
||
if __name__ == "__main__":
|
||
parser = argparse.ArgumentParser(
|
||
description="Plaziert Anlagenkomponenten aus RuleDesigner CSV.")
|
||
parser.add_argument("-f", "--file", required=True, help="CSV-Datei (Name oder Pfad)", metavar="input.csv")
|
||
parser.add_argument("-c", "--config", help="CFG mit einfachen Formen", metavar="shapes.cfg")
|
||
parser.add_argument("-l", "--lib", help="DXF-Bibliothek mit Blöcken", metavar="bibliothek.dxf")
|
||
parser.add_argument("-o", "--output", help="Ziel-DXF (Standard: PROJECT_WORK/anlage.dxf)", metavar="anlage.dxf")
|
||
parser.add_argument("-v", "--verbose", action="store_true", help="mehr Ausgaben anzeigen")
|
||
args = parser.parse_args()
|
||
|
||
# Verzeichnisse aus Umgebungsvariablen
|
||
log_dir = check_environment_var("PROJECT_LOG")
|
||
data_dir = check_environment_var("PROJECT_DATA")
|
||
work_dir = check_environment_var("PROJECT_WORK")
|
||
config_dir = check_environment_var("PROJECT_CFG")
|
||
|
||
logger = setup_logger(log_dir, name='plant2dxf')
|
||
logger.info("=== plant2dxf Verarbeitung gestartet ===")
|
||
|
||
# CSV‑Pfad: nur Dateiname → im WORK‑Ordner suchen
|
||
if os.sep not in args.file and "/" not in args.file:
|
||
csv_path = work_dir / args.file
|
||
else:
|
||
csv_path = Path(args.file)
|
||
|
||
cfg_path = Path(args.config) if args.config else config_dir / "shapes.cfg"
|
||
allgemein_cfg_path = config_dir / "allgemein.cfg"
|
||
default_lib_path = Path(args.lib) if args.lib else data_dir / "blocks.dxf"
|
||
output_path = Path(args.output) if args.output else (work_dir / f"{csv_path.stem}.dxf")
|
||
|
||
main(csv_path, default_lib_path, cfg_path, output_path, verbose=args.verbose, logger=logger)
|
||
logger.info("=== plant2dxf Verarbeitung abgeschlossen ===")
|
||
|