refectoring von omniflo
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from ezdxf.entities import Line
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import math
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from pydantic import BaseModel, Field, field_validator
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from typing import Optional
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import plant2dxf
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class Omniflo(BaseModel):
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teileid:str
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x:float
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y:float
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sivasnummer:str
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laenge: Optional [float]
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drehung: float
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hoehe : Optional[float]
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h0: Optional[float] = Field(default = 0.0,description="Höhe unten im CSV")
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h1: Optional[float] = Field(default = 0.0, description="Höhe Oben im CSV")
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@classmethod
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def from_merkmale(cls, teileid,x,y, merkmale):
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sivasnummer = merkmale.get("SivasNummer")
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try:
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laenge = float(merkmale.get("Länge in Meter", "0").replace(",", ".")) * 1000 # Meter → mm
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except Exception:
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laenge = 0
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try:
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winkel = float(merkmale.get("Drehung"))
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except Exception:
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winkel = 0.0
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try:
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hoehe = float(merkmale.get("Höhe"))
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except Exception:
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hoehe = 0.0
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try:
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h0 = float(merkmale.get("Höhe unten"))
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except Exception:
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h0 = 0.0
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try:
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h1 = float(merkmale.get("Höhe oben"))
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except Exception:
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h1 = 0.0
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return cls(
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teileid= teileid,
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x=x,
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y=y,
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sivasnummer = sivasnummer,
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laenge = laenge,
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drehung = winkel,
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hoehe = hoehe,
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h0 = h0,
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h1 = h1
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)
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def Omniflo_geraden_erstellung(msp, x, y, doc, tefsivas, omniflo_objekt):
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winkel_rad = math.radians(omniflo_objekt.drehung)
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halbe_laenge = omniflo_objekt.laenge / 2
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# Man muss bei sin -1 machen wegen des links koordinaten system
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dx = halbe_laenge * math.sin(winkel_rad * -1)
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dy = halbe_laenge * math.cos(winkel_rad)
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start = (x + dx, y + dy, omniflo_objekt.h1 )
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ende = (x - dx, y - dy, omniflo_objekt.h0)
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if "A-2" not in doc.layers:
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doc.layers.add(name="A-2", color=2)
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if "F-1" not in doc.layers:
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doc.layers.add(name="F-1", color =1)
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linie=msp.add_line(start, ende)
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if omniflo_objekt.sivasnummer == tefsivas:
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linie.dxf.layer = "F-1"
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else:
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linie.dxf.layer = "A-2"
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def omniflo_foerdererstellung(msp, x, y, doc, lib_doc, omniflo_objekt, rotation):
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plant2dxf.import_block("bogen1",lib_doc,doc)
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plant2dxf.import_block("bogen2",lib_doc,doc)
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laenge = omniflo_objekt.laenge
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h0 = omniflo_objekt.h0
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h1 = omniflo_objekt.h1
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h_zwischen = (h0 + h1)/2
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blockname = (f"OF_Förderer_{laenge}_{h_zwischen}")
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winkel_rad = math.radians(rotation)
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halbe_laenge = laenge / 2
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# Man muss bei sin -1 machen wegen des links koordinaten system
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dx = halbe_laenge * math.sin(rotation * -1)
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dy = halbe_laenge * math.cos(rotation)
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start = (x + dx, y + dy, h1 )
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ende = (x - dx, y - dy, h0)
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if blockname not in doc.blocks:
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block = doc.blocks.new(blockname, base_point=(0,0,0))
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block.add_blockref("bogen1",start)
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block.add_blockref("bogen2",ende)
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line = Line.new(dxfattribs={"start": start,"end":ende})
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copy = line.copy()
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copy.translate(-x,-y,-h_zwischen)
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block.add_entity(copy)
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msp.add_blockref(blockname,(x,y,h_zwischen),dxfattribs={"rotation": rotation})
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