fd58ef612f
lib/attradd.py -> lib/set_attributs.py: Name besser passend zum Skript-Zweck (setzt Attribute, analog set_einfuegepkt / set_koords). bin/add_attr.bat -> bin/set_attributs.bat entsprechend angepasst. cfg/attradd.cfg: Kommentar auf neuen Skriptnamen aktualisiert. HOEHE/DREHUNG-Eintraege aus [bogen] und [weiche] entfernt, da diese Attribute jetzt dynamisch via ssg-cfg-or aus component_defaults.json bezogen werden (nicht mehr als statische ATTDEF-Defaults noetig). Ebenso RADIUS aus [weiche] entfernt (war redundant zu KurvenWinkel). doc/tools.md und CLAUDE.md: Alle Verweise auf attradd.py auf set_attributs.py aktualisiert. Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
353 lines
11 KiB
Python
353 lines
11 KiB
Python
#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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"""
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set_attributs.py - Fuegt Attribute (ATTDEF) zu allen Omniflo DXF-Dateien hinzu.
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Liest die Attribut-Konfiguration aus cfg/attradd.cfg und die Element-Daten
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aus data/json/omniflo_boegen.json und omniflo_weichen.json.
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Die ergaenzten DXF-Dateien werden in results/omniflo/ gespeichert.
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Umgebungsvariablen:
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DXFM_DATA - Pfad zum data/-Verzeichnis
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DXFM_CFG - Pfad zum cfg/-Verzeichnis
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DXFM_RESULTS - Pfad zum results/-Verzeichnis
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Aufruf:
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python lib/set_attributs.py [--number SIVASNR] [--dry-run]
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"""
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import argparse
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import configparser
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import json
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import os
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import sys
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import ezdxf
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from ezdxf.enums import TextEntityAlignment
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# ---------------------------------------------------------------------------
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# Konfiguration lesen
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# ---------------------------------------------------------------------------
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def load_config(cfg_path):
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"""
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Liest attradd.cfg und gibt ein Dict zurueck:
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{
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"bogen": [("BESCHR", "ProfilTyp"), ("ARTINR", "Sivasnr"), ...],
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"weiche": [("BESCHR", "ProfilTyp"), ...],
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"layer": {"bogen": "OF Boegen A-2", "weiche_90": "Weiche 90 Grad A-2", ...},
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}
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"""
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config = configparser.ConfigParser()
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config.optionxform = str # Case-sensitive Keys
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config.read(cfg_path, encoding="utf-8")
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result = {}
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for section in config.sections():
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if section == "layer":
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# Layer-Sektion als einfaches Dict speichern
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layer_map = {}
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for key, val in config.items(section):
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val = val.strip()
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if val.startswith('"') and val.endswith('"'):
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val = val[1:-1]
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layer_map[key] = val
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result["layer"] = layer_map
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else:
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attrs = []
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for tag, source in config.items(section):
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attrs.append((tag, source.strip()))
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result[section] = attrs
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return result
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KOMBI_TYPEN = {"Deltaweiche", "Sternweiche", "Dreifachweiche"}
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def get_layer_for_entry(typ, json_entry, layer_map):
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"""
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Bestimmt den Layer-Namen anhand von Elementtyp und JSON-Daten.
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Gibt den Layer-String zurueck oder "" wenn kein Mapping vorhanden.
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"""
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if not layer_map:
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return ""
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if typ == "bogen":
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return layer_map.get("bogen", "")
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# Weiche: Kategorie anhand KurvenWinkel und WeichenTyp bestimmen
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winkel = json_entry.get("KurvenWinkel", 0)
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weichentyp = json_entry.get("WeichenTyp", "")
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# Weichenkombinationen (Deltaweiche, Sternweiche, Dreifachweiche)
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if weichentyp in KOMBI_TYPEN:
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return layer_map.get("weichenkombination", "")
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# Weichenkoerper (KurvenWinkel = 22.5)
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if winkel == 22.5:
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return layer_map.get("weichenkoerper", "")
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# Weiche 90 Grad
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if winkel == 90:
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return layer_map.get("weiche_90", "")
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# Weiche 45 Grad
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if winkel == 45:
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return layer_map.get("weiche_45", "")
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# Weichenbatterien / Parallel (KurvenWinkel = 0)
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if winkel == 0:
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return layer_map.get("weichenbatterie", "")
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return ""
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def resolve_value(source, json_entry, sivasnr):
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"""
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Loest einen Quell-Ausdruck aus der Config auf:
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- "fester Text" -> fester Text
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- {sivasnr} -> SivasNr-Wert
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- Feldname -> Wert aus json_entry
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"""
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source = source.strip()
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# Fester Wert in Anfuehrungszeichen
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if source.startswith('"') and source.endswith('"'):
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return source[1:-1]
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# Platzhalter
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if source == "{sivasnr}":
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return str(sivasnr)
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# JSON-Feld
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val = json_entry.get(source)
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if val is None:
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return ""
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return str(val)
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# ---------------------------------------------------------------------------
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# JSON-Daten laden
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# ---------------------------------------------------------------------------
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def load_json(path):
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with open(path, "r", encoding="utf-8") as f:
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return json.load(f)
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def build_lookup(boegen, weichen):
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"""Dict: SivasNr (String) -> (typ, eintrag)"""
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lookup = {}
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for b in boegen:
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lookup[str(b["Sivasnr"])] = ("bogen", b)
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for w in weichen:
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lookup[str(w["Sivasnr"])] = ("weiche", w)
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return lookup
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# ---------------------------------------------------------------------------
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# ATTDEF zu DXF hinzufuegen
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# ---------------------------------------------------------------------------
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ATTDEF_START_Y = -50.0
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ATTDEF_SPACING = -30.0
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ATTDEF_HEIGHT = 5.0
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ATTDEF_LAYER = "ATTRIB"
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def wrap_entities_in_block(doc, block_name):
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"""
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Verschiebt alle Entities aus dem Modelspace in eine Blockdefinition
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mit dem Namen block_name und fuegt eine Blockreferenz bei (0, 0) ein.
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Vorhandene Blockdefinition mit gleichem Namen wird ersetzt (fuer Re-Runs).
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"""
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msp = doc.modelspace()
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# Vorhandene Blockdefinition entfernen
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if block_name in doc.blocks:
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doc.blocks.delete_block(block_name, safe=False)
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blk = doc.blocks.new(block_name)
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for entity in list(msp):
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msp.move_to_layout(entity, blk)
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msp.add_blockref(block_name, (0, 0))
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def add_attdefs_to_dxf(dxf_path, output_path, attr_defs, json_entry, sivasnr,
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layer_value=""):
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"""
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Oeffnet eine DXF-Datei, fuegt ATTDEF-Entities in den Modelspace ein,
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fasst alle Entities anschliessend in einen Block mit dem Namen sivasnr
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zusammen und speichert das Ergebnis.
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attr_defs: Liste von (TAG, source_expression) aus der Config
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json_entry: Dict mit den JSON-Daten fuer dieses Element
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layer_value: Layer-Name aus [layer]-Sektion (wird als LAYER-ATTDEF gesetzt)
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"""
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doc = ezdxf.readfile(dxf_path)
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msp = doc.modelspace()
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# ATTRIB-Layer anlegen falls nicht vorhanden
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if ATTDEF_LAYER not in doc.layers:
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doc.layers.add(ATTDEF_LAYER, color=7)
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# Bestehende ATTDEFs entfernen (fuer Re-Runs)
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existing = [e for e in msp if e.dxftype() == "ATTDEF"]
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for e in existing:
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msp.delete_entity(e)
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# Alle ATTDEFs sammeln: Config-Attribute + LAYER aus [layer]-Sektion
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all_defs = list(attr_defs)
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if layer_value:
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all_defs.append(("LAYER", f'"{layer_value}"'))
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# ATTDEFs hinzufuegen
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y_pos = ATTDEF_START_Y
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count = 0
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for tag, source in all_defs:
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default_value = resolve_value(source, json_entry, sivasnr)
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prompt = tag
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msp.add_attdef(
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tag=tag,
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text=default_value,
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dxfattribs={
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"layer": ATTDEF_LAYER,
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"height": ATTDEF_HEIGHT,
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"insert": (0, y_pos),
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"prompt": prompt,
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"flags": 0, # sichtbar
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},
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)
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y_pos += ATTDEF_SPACING
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count += 1
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# Alle Entities (Geometrie + ATTDEFs) in Block mit Sivasnr-Namen fassen
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wrap_entities_in_block(doc, sivasnr)
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doc.saveas(output_path)
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return count
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# ---------------------------------------------------------------------------
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# Hauptprogramm
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# ---------------------------------------------------------------------------
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def process_all(data_dir, cfg_path, results_dir, single_nr=None, dry_run=False):
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"""Verarbeitet alle Omniflo DXF-Dateien."""
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# Config laden
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attr_config = load_config(cfg_path)
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layer_map = attr_config.pop("layer", {})
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print(f"[set_attributs] Config geladen: {list(attr_config.keys())}")
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if layer_map:
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print(f" [layer] {len(layer_map)} Zuordnungen: "
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f"{', '.join(f'{k}={v}' for k, v in layer_map.items())}")
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for section, attrs in attr_config.items():
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tags = [a[0] for a in attrs]
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print(f" [{section}] Attribute: {', '.join(tags)}")
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# JSON-Daten laden
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boegen = load_json(os.path.join(data_dir, "json", "omniflo_boegen.json"))
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weichen = load_json(os.path.join(data_dir, "json", "omniflo_weichen.json"))
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lookup = build_lookup(boegen, weichen)
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print(f"[set_attributs] {len(boegen)} Boegen, {len(weichen)} Weichen geladen.")
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# Ausgabeverzeichnis
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out_dir = os.path.join(results_dir, "omniflo")
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os.makedirs(out_dir, exist_ok=True)
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omniflo_dir = os.path.join(data_dir, "omniflo")
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processed = 0
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skipped = 0
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errors = 0
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# Alle bekannten SivasNr verarbeiten
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for sivasnr, (typ, entry) in sorted(lookup.items()):
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if single_nr and sivasnr != single_nr:
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continue
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# Quelldatei finden
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dxf_name = f"{sivasnr}.dxf"
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dxf_path = os.path.join(omniflo_dir, dxf_name)
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if not os.path.exists(dxf_path):
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skipped += 1
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continue
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# Attribute fuer diesen Typ
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if typ not in attr_config:
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print(f" WARNUNG: Kein Config-Abschnitt fuer Typ '{typ}', "
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f"ueberspringe {sivasnr}")
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skipped += 1
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continue
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attr_defs = attr_config[typ]
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layer_value = get_layer_for_entry(typ, entry, layer_map)
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output_path = os.path.join(out_dir, dxf_name)
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if dry_run:
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values = {tag: resolve_value(src, entry, sivasnr)
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for tag, src in attr_defs}
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if layer_value:
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values["LAYER"] = layer_value
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print(f" [DRY] {sivasnr} ({typ}): {values}")
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processed += 1
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continue
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try:
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count = add_attdefs_to_dxf(dxf_path, output_path, attr_defs,
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entry, sivasnr,
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layer_value=layer_value)
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processed += 1
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print(f" OK: {sivasnr} ({typ}) -> {count} Attribute -> {output_path}")
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except Exception as e:
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errors += 1
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print(f" FEHLER: {sivasnr}: {e}")
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print(f"\n[set_attributs] Fertig: {processed} verarbeitet, "
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f"{skipped} uebersprungen, {errors} Fehler.")
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if not dry_run:
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print(f"[set_attributs] Ausgabe in: {out_dir}")
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def main():
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parser = argparse.ArgumentParser(
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description="Fuegt Attribute (ATTDEF) zu Omniflo DXF-Dateien hinzu.")
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parser.add_argument("--number", "-n", type=str, default=None,
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help="Nur diese SivasNr verarbeiten")
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parser.add_argument("--dry-run", "-d", action="store_true",
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help="Nur anzeigen, nicht schreiben")
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args = parser.parse_args()
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# Umgebungsvariablen
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data_dir = os.environ.get("DXFM_DATA")
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cfg_dir = os.environ.get("DXFM_CFG")
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results_dir = os.environ.get("DXFM_RESULTS")
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# Fallback: relative Pfade vom Projektverzeichnis
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if not data_dir:
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base = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
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data_dir = os.path.join(base, "data")
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if not cfg_dir:
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base = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
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cfg_dir = os.path.join(base, "cfg")
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if not results_dir:
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base = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
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results_dir = os.path.join(base, "results")
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cfg_path = os.path.join(cfg_dir, "attradd.cfg")
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if not os.path.exists(cfg_path):
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print(f"[set_attributs] FEHLER: Config nicht gefunden: {cfg_path}")
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sys.exit(1)
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process_all(data_dir, cfg_path, results_dir,
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single_nr=args.number, dry_run=args.dry_run)
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if __name__ == "__main__":
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main()
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