diff --git a/lib/plant2dxf.py b/lib/plant2dxf.py index 0c99585..5c8ab47 100644 --- a/lib/plant2dxf.py +++ b/lib/plant2dxf.py @@ -283,6 +283,12 @@ def handle_standard(msp, blocknames, teileid, x, y, lib_doc, doc, verbose): def handle_ils_2_0_gefaellestrecke(msp, teileid, merkmale, x, y, doc, lib_doc, verbose, symbols, gefaellestrecken_nachbarn,config): #Vorbereitung der attributen + if "6-SP" not in doc.layers: + doc.layers.add(name="6-SP", color=3) + verbunden_am_einen = False + + am_kreisel = 0 + richtung2 ="DEFAULT" unterschiedlich = False asoffset = float(config.get("ILS 2.0 Gefällestrecke", "asoffset")) esoffset = float(config.get("ILS 2.0 Gefällestrecke", "esoffset")) @@ -293,243 +299,872 @@ def handle_ils_2_0_gefaellestrecke(msp, teileid, merkmale, x, y, doc, lib_doc, v if teileid == nachbarn.get("Id"): gefaellestrecke_nachbarn = nachbarn break - drehung0 =gefaellestrecke_nachbarn.get("Drehung0") - drehung1 = gefaellestrecke_nachbarn.get("Drehung1") - hoehe0 = gefaellestrecke_nachbarn.get("Hoehe0") - hoehe1 = gefaellestrecke_nachbarn.get("Hoehe1") - x0_kreisel = float(gefaellestrecke_nachbarn.get("x0")) - y0_kreisel = float(gefaellestrecke_nachbarn.get("y0")) - x1_kreisel = float(gefaellestrecke_nachbarn.get("x1")) - y1_kreisel = float(gefaellestrecke_nachbarn.get("y1")) - richtung0 = float(gefaellestrecke_nachbarn.get("rotation0")) - richtung1 = float(gefaellestrecke_nachbarn.get("rotation1")) - richtung_rad0= math.radians(richtung0) - richtung_rad1 = math.radians(richtung1) - abstand0 = float(gefaellestrecke_nachbarn.get("abstand0")) - abstand1 = float(gefaellestrecke_nachbarn.get("abstand1")) - kreisel_verbunden = 0 - laenge_m = merkmale.get("Länge in Meter", "10").replace(",", ".") - try: - laenge = float(laenge_m) * 1000 # Meter → mm - except ValueError: - laenge = 10000 # F + if "Drehung0" in gefaellestrecke_nachbarn and "Drehung1" not in gefaellestrecke_nachbarn: + drehung0 =gefaellestrecke_nachbarn.get("Drehung0") + x0_kreisel = float(gefaellestrecke_nachbarn.get("x0")) + y0_kreisel = float(gefaellestrecke_nachbarn.get("y0")) + hoehe0 = float(gefaellestrecke_nachbarn.get("Hoehe0")) + richtung0 = float(gefaellestrecke_nachbarn.get("rotation0")) + richtung_rad0= math.radians(richtung0) + abstand0 = float(gefaellestrecke_nachbarn.get("abstand0")) * 1000 + laenge_m = merkmale.get("Länge in Meter", "10").replace(",", ".") + try: + laenge = float(laenge_m) * 1000 # Meter → mm + except ValueError: + laenge = 10000 + 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) + halbe_laenge = laenge / 2 + winkel = math.radians(float(merkmale.get("Drehung"))) + dx = halbe_laenge *math.sin(winkel * -1) + dy = halbe_laenge * math.cos(winkel) + + if upper_hoehe_gefaehlle < lower_hoehe_gefaehlle: + hoehe2 = upper_hoehe_gefaehlle + upper_hoehe_gefaehlle = lower_hoehe_gefaehlle + lower_hoehe_gefaehlle = hoehe2 - #ausrechnung position kreisel - halbabstand0 = abstand0 / 2 - dx0 = halbabstand0 * math.cos(richtung_rad0) - dy0 = halbabstand0 * math.sin(richtung_rad0) - pos0_0 = (round(x0_kreisel - dx0),round( y0_kreisel - dy0),hoehe0) - pos0_1 = (round(x0_kreisel+ dx0),round( y0_kreisel+ dy0), hoehe0) + + if upper_hoehe_gefaehlle == hoehe0: + hight = "higher" + if richtung0 == 90.0 or richtung0 ==270: + richtung0= "Vertikal" + if x0_kreisel < x: + start_floor = (math.floor(x +dx ), math.floor(y + dy ),lower_hoehe_gefaehlle) + ende_floor = (math.floor(x -dx), math.floor(y - dy ) ,upper_hoehe_gefaehlle) + start_round = (round(x +dx ), round(y + dy ),lower_hoehe_gefaehlle) + ende_round= (round(x -dx), round(y - dy ) ,upper_hoehe_gefaehlle) + gefaelle = "links" + else: + 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) + gefaelle = "rechts" + else: + richtung0 = "Horinzontal" + if y0_kreisel < y: + start_floor = (math.floor(x +dx ), math.floor(y + dy ),lower_hoehe_gefaehlle) + ende_floor = (math.floor(x -dx), math.floor(y - dy ) ,upper_hoehe_gefaehlle) + start_round = (round(x +dx ), round(y + dy ),lower_hoehe_gefaehlle) + ende_round= (round(x -dx), round(y - dy ) ,upper_hoehe_gefaehlle) + gefaelle = "links" + gefaelle = "unten" + else: + 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) + gefaelle = "links" + gefaelle = "oben" + else: + hight = "lower" + if richtung0 == 90.0 or richtung0 ==270: + richtung0= "Vertikal" + if x0_kreisel < x: + 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) + gefaelle = "rechts" + else: + start_floor = (math.floor(x +dx ), math.floor(y + dy ),lower_hoehe_gefaehlle) + ende_floor = (math.floor(x -dx), math.floor(y - dy ) ,upper_hoehe_gefaehlle) + start_round = (round(x +dx ), round(y + dy ),lower_hoehe_gefaehlle) + ende_round= (round(x -dx), round(y - dy ) ,upper_hoehe_gefaehlle) + gefaelle = "links" + else: + richtung0 = "Horinzontal" + if y0_kreisel < y: + 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) + gefaelle = "links" + gefaelle = "oben" + else: + start_floor = (math.floor(x +dx ), math.floor(y + dy ),lower_hoehe_gefaehlle) + ende_floor = (math.floor(x -dx), math.floor(y - dy ) ,upper_hoehe_gefaehlle) + start_round = (round(x +dx ), round(y + dy ),lower_hoehe_gefaehlle) + ende_round= (round(x -dx), round(y - dy ) ,upper_hoehe_gefaehlle) + gefaelle = "links" + gefaelle = "unten" + 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 - halbabstand1 = abstand1 / 2 - dx1 = halbabstand1 * math.cos(richtung_rad1) - dy1 = halbabstand1 * math.sin(richtung_rad1) - pos1_0 = (round(x1_kreisel - dx1), round(y1_kreisel - dy1), hoehe1) - pos1_1 = (round(x1_kreisel + dx1), round(y1_kreisel + dy1), hoehe1) - winkel = math.radians(float(merkmale.get("Drehung"))) + 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 - 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) - abstand_fuer_kreis_start = round(start[0] +RADIUS),round( start[1] + RADIUS) - abstand_gegen_kreis_start = round(start[0] - RADIUS), round(start[1] - RADIUS) - abstand_fuer_kreis_ende = round(ende[0] + RADIUS), round(ende[1] + RADIUS) - abstand_gegen_kreis_ende = round(ende[0] - RADIUS), round(ende[1] - RADIUS) + + if( (abstand_fuer_kreis_start_x_floor == pos0_0_floor )or + ( abstand_fuer_kreis_start_x_floor == pos0_1_floor) or + ( abstand_gegen_kreis_start_x_floor == pos0_0_floor) or + ( abstand_gegen_kreis_start_x_floor == pos0_1_floor) or + (abstand_fuer_kreis_ende_x_floor == pos0_0_floor )or + ( abstand_fuer_kreis_ende_x_floor == pos0_1_floor) or + ( abstand_gegen_kreis_ende_x_floor == pos0_0_floor) or + ( abstand_gegen_kreis_ende_x_floor == pos0_1_floor) or + + (abstand_fuer_kreis_start_y_floor == pos0_0_floor )or + ( abstand_fuer_kreis_start_y_floor == pos0_1_floor) or + ( abstand_gegen_kreis_start_y_floor == pos0_0_floor) or + ( abstand_gegen_kreis_start_y_floor == pos0_1_floor) or + (abstand_fuer_kreis_ende_y_floor == pos0_0_floor )or + ( abstand_fuer_kreis_ende_y_floor == pos0_1_floor) or + ( abstand_gegen_kreis_ende_y_floor == pos0_0_floor) or + ( abstand_gegen_kreis_ende_y_floor == pos0_1_floor) or - - if( abstand_fuer_kreis_start[0] == pos0_0[0] or abstand_fuer_kreis_start[0] == pos0_1[0] or - abstand_fuer_kreis_start[1] == pos0_0[1] or abstand_fuer_kreis_start[1] == pos0_1[1] or - abstand_gegen_kreis_ende[0] == pos0_0[0] or abstand_gegen_kreis_ende[0] == pos0_1[0] or - abstand_gegen_kreis_ende[1] == pos0_0[1] or abstand_gegen_kreis_ende[1] == pos0_1[1] - - - - ): - kreisel_verbunden = kreisel_verbunden +1 - - - - if ( abstand_gegen_kreis_start[0] == pos1_0[0] or abstand_gegen_kreis_start[0] == pos1_1[0] or - abstand_gegen_kreis_start[1] == pos1_0[1] or abstand_gegen_kreis_start[1] == pos1_1[1]or - abstand_fuer_kreis_ende[0] == pos1_0[0] or abstand_fuer_kreis_ende[0] == pos1_1[0] or - abstand_fuer_kreis_ende[1] == pos1_0[1] or abstand_fuer_kreis_ende[1] == pos1_1[1] + (abstand_fuer_kreis_start_x_round == pos0_0_round )or + ( abstand_fuer_kreis_start_x_round == pos0_1_round) or + ( abstand_gegen_kreis_start_x_round == pos0_0_round) or + ( abstand_gegen_kreis_start_x_round == pos0_1_round) or + (abstand_fuer_kreis_ende_x_round == pos0_0_round)or + ( abstand_fuer_kreis_ende_x_round== pos0_1_round) or + ( abstand_gegen_kreis_ende_x_round == pos0_0_round) or + ( abstand_gegen_kreis_ende_x_round == pos0_1_round) or + + (abstand_fuer_kreis_start_y_round == pos0_0_round)or + (abstand_fuer_kreis_start_y_round == pos0_1_round) or + (abstand_gegen_kreis_start_y_round == pos0_0_round) or + (abstand_gegen_kreis_start_y_round == pos0_1_round) or + (abstand_fuer_kreis_ende_y_round == pos0_0_round)or + ( abstand_fuer_kreis_ende_y_round == pos0_1_round) or + ( abstand_gegen_kreis_ende_y_round == pos0_0_round) or + ( abstand_gegen_kreis_ende_y_round == pos0_1_round) ): kreisel_verbunden = kreisel_verbunden +1 + # setzung auf kreisel 1 für spätere ausrechnung der geraden form + am_kreisel = 1 + start = x +dx, y + dy,start_floor[2] + ende = x -dx, y - dy,ende_floor[2] + line =msp.add_line(start,ende) + line.dxf.layer = "6-SP" - if kreisel_verbunden == 2: - msp.add_line(start,ende) - return + 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" - + verbunden_am_einen = True + blockname = f"Ils_2.0_Gefaellestrecke_{laenge}_{drehung0}_{gefaelle}_{verbunden_am_einen}_{hight}" + if gefaelle == "oben": + rotation = 0 + elif gefaelle == "unten" : + rotation = 180 + elif gefaelle == "links" : + rotation = 90 + elif gefaelle == "rechts" : + rotation = 270 + erstellung_gefaelle_block_verbunenden_am_einen(x, y, doc, lib_doc, asoffset, esoffset, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, hoehe_gefaehlle, drehung0, laenge, hight, blockname) + blockref_layer = get_layer(doc, lib_doc, blockname) + bref =msp.add_blockref(blockname,(x,y,hoehe_gefaehlle),dxfattribs={"rotation": rotation, "layer": blockref_layer}) + a =bref.add_attrib( + tag= "NAME", + text= merkmale.get("bezeichner"), + insert = (x,y) + ) + a.is_invisible = True - if (richtung0 != richtung1): - if x-RADIUS == x0_kreisel or x+RADIUS == x0_kreisel or x-RADIUS == x1_kreisel or x+ RADIUS == x1_kreisel: - richtung0= "Horinzontal" + + + + + elif "Drehung0" in gefaellestrecke_nachbarn and "Drehung1" in gefaellestrecke_nachbarn: + drehung0 =gefaellestrecke_nachbarn.get("Drehung0") + drehung1 = gefaellestrecke_nachbarn.get("Drehung1") + hoehe0 = gefaellestrecke_nachbarn.get("Hoehe0") + hoehe1 = gefaellestrecke_nachbarn.get("Hoehe1") + x0_kreisel = float(gefaellestrecke_nachbarn.get("x0")) + y0_kreisel = float(gefaellestrecke_nachbarn.get("y0")) + x1_kreisel = float(gefaellestrecke_nachbarn.get("x1")) + y1_kreisel = float(gefaellestrecke_nachbarn.get("y1")) + richtung0 = float(gefaellestrecke_nachbarn.get("rotation0")) + richtung1 = float(gefaellestrecke_nachbarn.get("rotation1")) + richtung2 ="DEFAULT" + richtung_rad0= math.radians(richtung0) + richtung_rad1 = math.radians(richtung1) + abstand0 = float(gefaellestrecke_nachbarn.get("abstand0")) * 1000 + abstand1 = float(gefaellestrecke_nachbarn.get("abstand1")) * 1000 + kreisel_verbunden = 0 + laenge_m = merkmale.get("Länge in Meter", "10").replace(",", ".") + try: + laenge = float(laenge_m) * 1000 # Meter → mm + except ValueError: + laenge = 10000 + + + #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)) + pos0_1_floor = (math.floor(x0_kreisel- dx0),math.floor( y0_kreisel- dy0)) + pos0_0_round= (round(x0_kreisel + dx0),round( y0_kreisel + dy0)) + pos0_1_round = (round(x0_kreisel- dx0),round( y0_kreisel- dy0)) + + 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)) + pos1_1_floor = (math.floor(x1_kreisel - dx1), math.floor(y1_kreisel - dy1)) + pos1_0_round = (round(x1_kreisel + dx1), round(y1_kreisel + dy1)) + pos1_1_round = (round(x1_kreisel - dx1), round(y1_kreisel - dy1)) + winkel = math.radians(float(merkmale.get("Drehung"))) + # berechnung der geraden einmal abgerunden und einmal gerunden zur negirung des offsets + 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) + # verschiebund der endpunkte der gerade in richtung von dem potentiellen Kreisel für den vergleich wieder mit floor und rundung + 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 + + + # vergleich mit einem kreisel von zwei + if( (abstand_fuer_kreis_start_x_floor == pos0_0_floor )or + ( abstand_fuer_kreis_start_x_floor == pos0_1_floor) or + ( abstand_gegen_kreis_start_x_floor == pos0_0_floor) or + ( abstand_gegen_kreis_start_x_floor == pos0_1_floor) or + (abstand_fuer_kreis_ende_x_floor == pos0_0_floor )or + ( abstand_fuer_kreis_ende_x_floor == pos0_1_floor) or + ( abstand_gegen_kreis_ende_x_floor == pos0_0_floor) or + ( abstand_gegen_kreis_ende_x_floor == pos0_1_floor) or + + (abstand_fuer_kreis_start_y_floor == pos0_0_floor )or + ( abstand_fuer_kreis_start_y_floor == pos0_1_floor) or + ( abstand_gegen_kreis_start_y_floor == pos0_0_floor) or + ( abstand_gegen_kreis_start_y_floor == pos0_1_floor) or + (abstand_fuer_kreis_ende_y_floor == pos0_0_floor )or + ( abstand_fuer_kreis_ende_y_floor == pos0_1_floor) or + ( abstand_gegen_kreis_ende_y_floor == pos0_0_floor) or + ( abstand_gegen_kreis_ende_y_floor == pos0_1_floor) or + + (abstand_fuer_kreis_start_x_round == pos0_0_round )or + ( abstand_fuer_kreis_start_x_round == pos0_1_round) or + ( abstand_gegen_kreis_start_x_round == pos0_0_round) or + ( abstand_gegen_kreis_start_x_round == pos0_1_round) or + (abstand_fuer_kreis_ende_x_round == pos0_0_round)or + ( abstand_fuer_kreis_ende_x_round== pos0_1_round) or + ( abstand_gegen_kreis_ende_x_round == pos0_0_round) or + ( abstand_gegen_kreis_ende_x_round == pos0_1_round) or + + (abstand_fuer_kreis_start_y_round == pos0_0_round)or + (abstand_fuer_kreis_start_y_round == pos0_1_round) or + (abstand_gegen_kreis_start_y_round == pos0_0_round) or + (abstand_gegen_kreis_start_y_round == pos0_1_round) or + (abstand_fuer_kreis_ende_y_round == pos0_0_round)or + ( abstand_fuer_kreis_ende_y_round == pos0_1_round) or + ( abstand_gegen_kreis_ende_y_round == pos0_0_round) or + ( abstand_gegen_kreis_ende_y_round == pos0_1_round) + ): + kreisel_verbunden = kreisel_verbunden +1 + # setzung auf kreisel 1 für spätere ausrechnung der geraden form + am_kreisel = 1 + + + + if( (abstand_fuer_kreis_start_x_floor == pos1_0_floor )or + ( abstand_fuer_kreis_start_x_floor == pos1_1_floor) or + ( abstand_gegen_kreis_start_x_floor == pos1_0_floor) or + ( abstand_gegen_kreis_start_x_floor == pos1_1_floor) or + (abstand_fuer_kreis_ende_x_floor == pos1_0_floor )or + ( abstand_fuer_kreis_ende_x_floor == pos1_1_floor) or + ( abstand_gegen_kreis_ende_x_floor == pos1_0_floor) or + ( abstand_gegen_kreis_ende_x_floor == pos1_1_floor) or + + (abstand_fuer_kreis_start_y_floor == pos1_0_floor )or + ( abstand_fuer_kreis_start_y_floor == pos1_1_floor) or + ( abstand_gegen_kreis_start_y_floor == pos1_0_floor) or + ( abstand_gegen_kreis_start_y_floor == pos1_1_floor) or + (abstand_fuer_kreis_ende_y_floor == pos1_0_floor )or + ( abstand_fuer_kreis_ende_y_floor == pos1_1_floor) or + ( abstand_gegen_kreis_ende_y_floor == pos1_0_floor) or + ( abstand_gegen_kreis_ende_y_floor == pos1_1_floor) or + + (abstand_fuer_kreis_start_x_round == pos1_0_round )or + ( abstand_fuer_kreis_start_x_round == pos1_1_round) or + ( abstand_gegen_kreis_start_x_round == pos1_0_round) or + ( abstand_gegen_kreis_start_x_round == pos1_1_round) or + (abstand_fuer_kreis_ende_x_round == pos1_0_round)or + ( abstand_fuer_kreis_ende_x_round== pos1_1_round) or + ( abstand_gegen_kreis_ende_x_round == pos1_0_round) or + ( abstand_gegen_kreis_ende_x_round == pos1_1_round) or + + (abstand_fuer_kreis_start_y_round == pos1_0_round)or + (abstand_fuer_kreis_start_y_round == pos1_1_round) or + (abstand_gegen_kreis_start_y_round == pos1_0_round) or + (abstand_gegen_kreis_start_y_round == pos1_1_round) or + (abstand_fuer_kreis_ende_y_round == pos1_0_round)or + ( abstand_fuer_kreis_ende_y_round == pos1_1_round) or + ( abstand_gegen_kreis_ende_y_round == pos1_0_round) or + ( abstand_gegen_kreis_ende_y_round == pos1_1_round) + ): + kreisel_verbunden = kreisel_verbunden +1 + am_kreisel = 2 + + # falls gefälle strecke mit zwei kreiseln verbunden zeichne eine einfache linie (später braucht man hier auch eine logik sobald man die richtigen es und as elemente hat) + if kreisel_verbunden == 2: + start = x +dx, y + dy,upper_hoehe_gefaehlle + ende = x -dx, y - dy,lower_hoehe_gefaehlle + line = msp.add_line(start,ende) + line.dxf.layer = "6-SP" + return + + + #umbezeichnung von den geraden zu strings ob es Vertikal oder Horizontal ist + if richtung0 == 90.0 or richtung0 ==270: + richtung0= "Vertikal" else: - richtung1 = "Vertikal" - unterschiedlich = True - #Berechnung des Gefälles - if hoehe0 > hoehe1: - hight_position = "higher" - else: - hight_position = "lower" - if richtung0 == "Vertikal": - if x0_kreisel < x1_kreisel: - position = hight_position + "_links" + richtung0 = "Horinzontal" + if richtung1 == 90.0 or richtung1 ==270: + richtung1= "Vertikal" else: - position = hight_position + "_rechts" - else: - if y0_kreisel > y1_kreisel: - position = hight_position + "_higher" - else: - position = hight_position + "_lower" + richtung1 = "Horinzontal" + - 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" + + # setzung von richtung2 auf vertikal oder horizontal je nach dem welche orientierung der kreisel hat mit dem man am kreisel verbunden ist + if (richtung0 != richtung1 and kreisel_verbunden ==1): + if( + (abstand_fuer_kreis_start_y_floor== pos0_0_floor)or + (abstand_fuer_kreis_start_y_floor == pos0_1_floor) or + (abstand_gegen_kreis_start_y_floor == pos0_0_floor) or + (abstand_gegen_kreis_start_y_floor == pos0_1_floor) or + (abstand_fuer_kreis_ende_y_floor == pos0_0_floor)or + (abstand_fuer_kreis_ende_y_floor== pos0_1_floor) or + (abstand_gegen_kreis_ende_y_floor == pos0_0_floor) or + (abstand_gegen_kreis_ende_y_floor== pos0_1_floor) or + (abstand_fuer_kreis_start_y_round == pos0_0_round)or + (abstand_fuer_kreis_start_y_round == pos0_1_round) or + (abstand_gegen_kreis_start_y_round == pos0_0_round) or + (abstand_gegen_kreis_start_y_round== pos0_1_round) or + (abstand_fuer_kreis_ende_y_round == pos0_0_round)or + (abstand_fuer_kreis_ende_y_round== pos0_1_round) or + (abstand_gegen_kreis_ende_y_round== pos0_0_round) or + (abstand_gegen_kreis_ende_y_round == pos0_1_round) or + + + + (abstand_fuer_kreis_start_y_floor == pos1_0_floor )or + ( abstand_fuer_kreis_start_y_floor == pos1_1_floor) or + ( abstand_gegen_kreis_start_y_floor == pos1_0_floor) or + ( abstand_gegen_kreis_start_y_floor == pos1_1_floor) or + (abstand_fuer_kreis_ende_y_floor == pos1_0_floor )or + ( abstand_fuer_kreis_ende_y_floor== pos1_1_floor) or + ( abstand_gegen_kreis_ende_y_floor == pos1_0_floor) or + ( abstand_gegen_kreis_ende_y_floor == pos1_1_floor) or + + (abstand_fuer_kreis_start_y_round == pos1_0_round)or + ( abstand_fuer_kreis_start_y_round == pos1_1_round) or + ( abstand_gegen_kreis_start_y_round == pos1_0_round) or + ( abstand_gegen_kreis_start_y_round== pos1_1_round) or + (abstand_fuer_kreis_ende_y_round == pos1_0_round)or + ( abstand_fuer_kreis_ende_y_round == pos1_1_round) or + ( abstand_gegen_kreis_ende_y_round == pos1_0_round) or + ( abstand_gegen_kreis_ende_y_round == pos1_1_round) + ): + richtung2= "Vertikal" else: - gefaelle = "unten" + richtung2 = "Horinzontal" + unterschiedlich = True + #Berechnung des Gefälles - #Wechsel das die Drehung des obersten oder des Linkens Kreisels immer als erstes steht für die Bennenung des Blockes und dem entsprchend - #wird auch getauscht in welcher hohen position es ist - if (position == "higher_rechts" or position == "lower_rechts" or position=="higher_lower" or position== "lower_lower") and drehung0 != drehung1: - drehung_2 = drehung0 - drehung0 = drehung1 - drehung1= drehung_2 - if hight_position == "higher": - hight_position = "lower" - else: + 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" - # - blockname = f"Ils_2.0_Gefaellestrecke_{laenge}_{hoehe_gefaehlle}_{drehung0}_{drehung1}_{hight_position}" - if gefaelle == "oben": - rotation = 0 - elif gefaelle == "unten" : - rotation = 180 - elif gefaelle == "links" : - rotation = 90 - elif gefaelle == "rechts" : - rotation = 270 - gefaellegerade_erstellung(x, y, doc, lib_doc, asoffset, esoffset, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, hoehe_gefaehlle, drehung0, drehung1, laenge, hight_position, blockname) + 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" + # vertausch der drehung und der höhe für die namens gebung des blockes + if (position == "higher_rechts" or position == "lower_rechts" or position=="higher_lower" or position== "lower_lower") and drehung0 != drehung1 and am_kreisel == 0: + drehung_2 = drehung0 + drehung0 = drehung1 + drehung1= drehung_2 + if hight_position == "higher": + hight_position = "lower" + else: + hight_position = "higher" + + # austausch der werte damit immer davon ausgehen dass der 1 kreisel in unserer Liste am Kreisel verbuden ist + 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" + # austausch der werte damit immer davon ausgehen dass der 1 kreisel in unserer Liste am Kreisel verbuden ist + 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" - - bref =msp.add_blockref(blockname,(x,y,hoehe_gefaehlle),dxfattribs={"rotation": rotation}) - bref.add_attrib( - tag= "NAME", - text= merkmale.get("bezeichner"), - insert = (x,y) - - - ) + if gefaelle == "oben": + rotation = 0 + elif gefaelle == "unten" : + rotation = 180 + elif gefaelle == "links" : + rotation = 90 + elif gefaelle == "rechts" : + rotation = 270 -def gefaellegerade_erstellung(x, y, doc, lib_doc, asoffset, esoffset, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, hoehe_gefaehlle, drehung0, drehung1, laenge, hight_position, blockname): - if blockname not in doc.blocks and drehung0 == "GUZS" and drehung1 == "GUZS" : + #geben der richtung2 eines wertes außer default wenn beide kreisel die gleiche richung haben + if (kreisel_verbunden == 1 and richtung2 =="DEFAULT"): + richtung2 = richtung0 + + if richtung2 == "DEFAULT": + blockname = f"Ils_2.0_Gefaellestrecke_{laenge}_{hoehe_gefaehlle}_{drehung0}_{drehung1}_{hight_position}_{verbunden_am_einen}" + else: + blockname = f"Ils_2.0_Gefaellestrecke_{laenge}_{hoehe_gefaehlle}_{drehung0}_{drehung1}_{hight_position}_{unterschiedlich}_{richtung2}_{verbunden_am_einen}" + gefaellegerade_erstellung(x, y, doc, lib_doc, asoffset, esoffset, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, hoehe_gefaehlle,richtung2,drehung0, drehung1, laenge, hight_position,blockname) + blockref_layer = get_layer(doc, lib_doc, blockname) + + + bref =msp.add_blockref(blockname,(x,y,hoehe_gefaehlle),dxfattribs={"rotation": rotation, "layer": blockref_layer }) + a = bref.add_attrib( + tag= "NAME", + text= merkmale.get("bezeichner"), + insert = (x,y) + ) + a.is_invisible = True + #falls eine gefällestrecke nicht mit einem kreisel verbunden ist + 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 + line = msp.add_line(start,ende) + line.dxf.layer = "6-SP" + +def erstellung_gefaelle_block_verbunenden_am_einen(x, y, doc, lib_doc, asoffset, esoffset, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, hoehe_gefaehlle, drehung0, laenge, hight, blockname): + if blockname not in doc.blocks and hight == "higher" and drehung0 == "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) + ende = (x , y - dy ,lower_hoehe_gefaehlle) line = Line.new(dxfattribs={"start": start, "end": ende}) + line.dxf.layer = "6-SP" 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)) - - if 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")): + elif blockname not in doc.blocks and hight == "lower" and drehung0 == "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) + start = (x , y + dy,upper_hoehe_gefaehlle) ende = (x , y - dy + esoffset,lower_hoehe_gefaehlle) line = Line.new(dxfattribs={"start": start, "end": ende}) + line.dxf.layer = "6-SP" 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}) - - - if 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}) - - - if 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])) + block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset-y ,ende[2] -hoehe_gefaehlle)) + elif blockname not in doc.blocks and hight == "higher" and drehung0 == "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}) + line.dxf.layer = "6-SP" + 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] - hoehe_gefaehlle),dxfattribs={"rotation": 180}) + elif blockname not in doc.blocks and hight == "lower" and drehung0 == "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 ,upper_hoehe_gefaehlle) + ende = (x , y - dy + esoffset,lower_hoehe_gefaehlle) + line = Line.new(dxfattribs={"start": start, "end": ende}) + line.dxf.layer = "6-SP" + 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] - hoehe_gefaehlle),dxfattribs={"rotation": 180}) + + +def gefaellegerade_erstellung(x, y, doc, lib_doc, asoffset, esoffset, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, hoehe_gefaehlle,richtung2, drehung0, drehung1, laenge, hight_position, blockname): + #erstellung des blockes falls die gefaelle strecke mit einem kreisel verbunden ist, mehrere variation von selben weil diese nötig sind sobald man die richtigen inserts bekommen + if upper_hoehe_gefaehlle < lower_hoehe_gefaehlle: + middle_hoehe = upper_hoehe_gefaehlle + upper_hoehe_gefaehlle = lower_hoehe_gefaehlle + lower_hoehe_gefaehlle = middle_hoehe + + 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}) + line.dxf.layer = "6-SP" + 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}) + line.dxf.layer = "6-SP" + 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}) + line.dxf.layer = "6-SP" + 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] - hoehe_gefaehlle), 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}) + line.dxf.layer = "6-SP" + + 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 == "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}) + line.dxf.layer = "6-SP" + + 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] - hoehe_gefaehlle),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}) + line.dxf.layer = "6-SP" + + 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] - hoehe_gefaehlle),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}) + line.dxf.layer = "6-SP" + + + 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 == "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}) + line.dxf.layer = "6-SP" + + 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] - hoehe_gefaehlle),dxfattribs={"rotation": 180}) + #erstellung von den normalen gefällestrecken + 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}) + line.dxf.layer = "6-SP" + + 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}) + line.dxf.layer = "6-SP" + + 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] - hoehe_gefaehlle)) + block.add_blockref(block_es, (ende[0]-x ,ende[1]- esoffset-y,ende[2] - hoehe_gefaehlle),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}) + line.dxf.layer = "6-SP" + + 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] - hoehe_gefaehlle),dxfattribs={"rotation": 180}) + + block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset -y,ende[2] - hoehe_gefaehlle) ,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}) + line.dxf.layer = "6-SP" + + 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] - hoehe_gefaehlle),dxfattribs={"rotation": 180}) + + block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset -y,ende[2] - hoehe_gefaehlle)) def handle_omniflo(msp, teileid, merkmale, x, y, doc, lib_doc, verbose, symbols, gefaellestrecken_nachbarn,config): """ @@ -596,7 +1231,10 @@ def handle_omniflo(msp, teileid, merkmale, x, y, doc, lib_doc, verbose, symbols, def get_layer(doc, lib_doc, blockname): - src = lib_doc.blocks[blockname] + if blockname in lib_doc.blocks: + src = lib_doc.blocks[blockname] + else: + src = 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: