from ezdxf.entities import Line import math import plant2dxf import block_methoden RADIUS = 400 def erstellung_gefaelle_block_verbunenden_am_einen(msp,x, y, doc, lib_doc, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, hoehe_gefaehlle, drehung0, laenge,blockname,config, hight = None, block_vario = None, vario_richtung = None, verbungden_höher = None,gefaelle_block=None,start = None,ende = None,mit_horizontal_verbunden = None): halbe_laenge = laenge / 2 dy = halbe_laenge * math.cos(0) asoffset = float(config.get("ILS 2.0 Gefällestrecke", "asoffset")) esoffset = float(config.get("ILS 2.0 Gefällestrecke", "esoffset")) winkel_as = float(config.get("Ils 2.0 core winkel", "winkel_as")) winkel_es = float(config.get("Ils 2.0 core winkel", "winkel_es")) asoffset_y = asoffset * math.cos(math.radians(winkel_as)) asoffset_z = asoffset * math.sin(math.radians(winkel_as)) esoffset_y = esoffset * math.cos(math.radians(winkel_es)) esoffset_z = esoffset * math.sin(math.radians(winkel_es)) block_as = None block_es = None if (( hight == "higher" and drehung0 == "GUZS" )or (vario_richtung == "Auf"and verbungden_höher == False and drehung0 == "GUZS")or (vario_richtung == "Ab" and verbungden_höher == True and drehung0 == "GUZS")or (vario_richtung == "Horizontal" and drehung0 == "GUZS" and (mit_horizontal_verbunden == "unten_drehung_0_or_-90" or mit_horizontal_verbunden == "oben_drehung_-180_or_-270"))): block_as = "200000241_AS-Element_90_rechts" block_methoden.import_block(block_as,lib_doc,doc) layer, color = block_methoden.get_insert_color_layer(lib_doc, block_as) elif ((hight == "lower" and drehung0 == "GUZS") or (vario_richtung == "Auf"and verbungden_höher == True and drehung0 == "GUZS") or (vario_richtung == "Ab" and verbungden_höher == False and drehung0 == "GUZS")or (vario_richtung == "Horizontal" and drehung0 == "GUZS" and (mit_horizontal_verbunden == "oben_drehung_0_or_-90" or mit_horizontal_verbunden == "unten_drehung_-180_or_-270"))): block_es = "200000146_ES-Element_90_rechts" block_methoden.import_block(block_es,lib_doc,doc) layer, color = block_methoden.get_insert_color_layer(lib_doc, block_es) elif ((hight == "higher" and drehung0 == "UZS")or (vario_richtung == "Auf"and verbungden_höher == False and drehung0 == "UZS") or (vario_richtung == "Ab" and verbungden_höher == True and drehung0 == "UZS")or (vario_richtung == "Horizontal" and drehung0 == "UZS" and (mit_horizontal_verbunden == "unten_drehung_0_or_-90" or mit_horizontal_verbunden == "oben_drehung_-180_or_-270"))): block_as = "200000217_AS-Element_90_links" block_methoden.import_block(block_as,lib_doc,doc) layer, color = block_methoden.get_insert_color_layer(lib_doc, block_as) elif (( hight == "lower" and drehung0 == "UZS") or (vario_richtung == "Auf" and verbungden_höher == True and drehung0 == "UZS") or (vario_richtung == "Ab" and verbungden_höher == False and drehung0 == "UZS")or (vario_richtung == "Horizontal" and drehung0 == "UZS" and (mit_horizontal_verbunden == "oben_drehung_0_or_-90" or mit_horizontal_verbunden == "unten_drehung_-180_or_-270"))): block_es = "400102632_ES-Element_90_links" block_methoden.import_block(block_es,lib_doc,doc) layer, color = block_methoden.get_insert_color_layer(lib_doc, block_es) if block_as != None: block_as = block_methoden.dreh_block(block_as,doc,lib_doc,math.radians(winkel_as)) if vario_richtung == "Auf" or vario_richtung =="Horizontal": start = (x , y + dy ,upper_hoehe_gefaehlle) ende = (x , y - dy + asoffset_y ,lower_hoehe_gefaehlle - asoffset_z) block_vario.add_blockref(block_as,(ende[0]-x ,ende[1]-asoffset_y -y,ende[2] -hoehe_gefaehlle + asoffset_z),dxfattribs={"rotation": 180,"layer":layer,"color":color}) return start, ende elif vario_richtung == "Ab": start = (x , y + dy - asoffset_y,upper_hoehe_gefaehlle - asoffset_z) ende = (x , y - dy ,lower_hoehe_gefaehlle) block_vario.add_blockref(block_as,(start[0]-x ,start[1]+asoffset_y -y,start[2] -hoehe_gefaehlle + asoffset_z),dxfattribs={"layer":layer,"color":color}) return start,ende if laenge > asoffset: start[1] = start[1] - asoffset_y start[2] = start[2] - asoffset_z line = Line.new(dxfattribs={"start": start, "end": ende}) line.dxf.layer = "6-SP" copy= line.copy() copy.translate(-x,-y,-hoehe_gefaehlle) gefaelle_block.add_entity(copy) gefaelle_block.add_blockref(block_as,(start[0]-x ,start[1]+asoffset_y -y,start[2] -hoehe_gefaehlle + asoffset_z),dxfattribs={"layer":layer,"color":color}) return False else: msp.add_blockref(block_as,(x,y,upper_hoehe_gefaehlle),dxfattribs={"layer":layer,"color":color}) return True elif block_es != None: block_es = block_methoden.dreh_block(block_es,doc,lib_doc,math.radians(winkel_es)) if vario_richtung == "Auf" or vario_richtung =="Horizontal": start = (x , y + dy-esoffset_y ,upper_hoehe_gefaehlle + esoffset_z) ende = (x , y - dy,lower_hoehe_gefaehlle) block_vario.add_blockref(block_es, (start[0]-x ,start[1]+esoffset_y -y,start[2] - hoehe_gefaehlle - esoffset_z),dxfattribs={"rotation": 180,"layer":layer,"color":color}) return start, ende elif vario_richtung == "Ab": start = (x , y + dy ,upper_hoehe_gefaehlle) ende = (x , y - dy + esoffset_y,lower_hoehe_gefaehlle + esoffset_z) block_vario.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset_y -y,ende[2] - hoehe_gefaehlle -esoffset_z),dxfattribs={"layer":layer,"color":color}) return start,ende if laenge > esoffset: ende[1] = ende[1] + esoffset_y ende[2] = ende[2] + esoffset_z line = Line.new(dxfattribs={"start": start, "end": ende}) line.dxf.layer = "6-SP" copy= line.copy() copy.translate(-x ,-y,-hoehe_gefaehlle) gefaelle_block.add_entity(copy) gefaelle_block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset_y -y,ende[2] - hoehe_gefaehlle -esoffset_z),dxfattribs={"layer":layer,"color":color}) return False else: msp.add_blockref(block_es,(x,y,lower_hoehe_gefaehlle),dxfattribs={"layer":layer,"color":color}) return True def gefaellegerade_erstellung(x, y, doc, lib_doc, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, hoehe_gefaehlle,richtung2, drehung0, drehung1, laenge, hight_position, blockname,config, block_vario = None,voerder_richtung = None, am_kreisel = None, erster_kreisel_höher = None,y1=None,z1 =None): #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 asoffset = float(config.get("ILS 2.0 Gefällestrecke", "asoffset")) esoffset = float(config.get("ILS 2.0 Gefällestrecke", "esoffset")) winkel_as = float(config.get("Ils 2.0 core winkel", "winkel_as")) winkel_es = float(config.get("Ils 2.0 core winkel", "winkel_es")) asoffset_y = asoffset * math.cos(math.radians(winkel_as)) asoffset_z = asoffset * math.sin(math.radians(winkel_as)) esoffset_y = esoffset * math.cos(math.radians(winkel_es)) esoffset_z = esoffset * math.sin(math.radians(winkel_es)) block_as = None block_es = None halbe_laenge = laenge / 2 dy = halbe_laenge * math.cos(0) 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" or am_kreisel != None: # Schaut bei gleicher Orentierung if ((drehung0 == "GUZS" and drehung1 == "GUZS" and hight_position == "higher") or (voerder_richtung == "Auf" and((am_kreisel == 1 and erster_kreisel_höher == False)or (am_kreisel== 2 and erster_kreisel_höher == True)) and drehung0 == "GUZS" and drehung1== "GUZS") or (voerder_richtung == "Ab"and ((am_kreisel == 1 and erster_kreisel_höher == True)or (am_kreisel== 2 and erster_kreisel_höher == False)) and drehung0 == "GUZS" and drehung1== "GUZS") or # Schaut bei ungleicher Orentierung ((drehung0 == "UZS" and drehung1 == "GUZS" and hight_position== "higher"))or (voerder_richtung == "Auf"and ((am_kreisel == 1 and erster_kreisel_höher == False) or (am_kreisel ==2 and erster_kreisel_höher ==True))and (drehung0 == "GUZS" and drehung1 == "UZS")) or (voerder_richtung == "Ab" and((am_kreisel == 1 and erster_kreisel_höher == True)or (am_kreisel == 2 and erster_kreisel_höher == False))and (drehung0 == "UZS" and drehung1 == "GUZS"))): block_es = "200000146_ES-Element_90_rechts" block_methoden.import_block(block_es,lib_doc,doc) layer, color = block_methoden.get_insert_color_layer(lib_doc,block_es) elif ((drehung0 == "GUZS" and drehung1 == "GUZS") or (am_kreisel != None and drehung0 == "GUZS" and drehung1 == "GUZS") or (drehung0 == "UZS" and drehung1 == "GUZS" and hight_position == "lower")or (voerder_richtung == "Auf" and((am_kreisel == 1 and erster_kreisel_höher == True)or (am_kreisel == 2 and erster_kreisel_höher == False))and (drehung0 == "UZS" and drehung1 == "GUZS")) or (voerder_richtung == "Ab"and ((am_kreisel == 1 and erster_kreisel_höher == False)or (am_kreisel == 2 and erster_kreisel_höher == True))and (drehung0 == "GUZS" and drehung1 == "UZS"))): block_as = "200000241_AS-Element_90_rechts" block_methoden.import_block(block_as,lib_doc,doc) layer, color = block_methoden.get_insert_color_layer(lib_doc,block_as) elif ((drehung0 == "UZS" and drehung1 == "UZS" and hight_position == "higher")or (voerder_richtung == "Auf" and((am_kreisel == 1 and erster_kreisel_höher == False)or (am_kreisel== 2 and erster_kreisel_höher == True)) and drehung0 == "UZS" and drehung1== "UZS")or (voerder_richtung == "Ab" and((am_kreisel == 1 and erster_kreisel_höher == True)or (am_kreisel== 2 and erster_kreisel_höher == False)) and drehung0 == "UZS" and drehung1== "UZS") or (drehung0 == "GUZS" and drehung1 == "UZS" and hight_position == "higher")or (voerder_richtung == "Auf" and((am_kreisel == 1 and erster_kreisel_höher == False)or (am_kreisel == 2 and erster_kreisel_höher == True))and (drehung0 == "UZS" and drehung1 == "GUZS")) or (voerder_richtung == "Ab" and((am_kreisel == 1 and erster_kreisel_höher == True) or (am_kreisel ==2 and erster_kreisel_höher ==False))and (drehung0 == "GUZS" and drehung1 == "UZS"))): block_es = "400102632_ES-Element_90_links" block_methoden.import_block(block_es,lib_doc,doc) layer, color = block_methoden.get_insert_color_layer(lib_doc,block_es) elif (((drehung0 == "UZS" and drehung1 == "UZS")or (am_kreisel!= None and drehung0 == "UZS" and drehung1 == "UZS")) or (drehung0 == "GUZS" and drehung1 == "UZS" and hight_position == "lower")or (voerder_richtung == "Auf"and((am_kreisel == 1 and erster_kreisel_höher == True)or (am_kreisel == 2 and erster_kreisel_höher == False))and (drehung0 == "GUZS" and drehung1 == "UZS")) or (voerder_richtung == "Ab" and((am_kreisel == 1 and erster_kreisel_höher == False)or (am_kreisel == 2 and erster_kreisel_höher == True))and (drehung0 == "UZS" and drehung1 == "GUZS"))): block_as = "200000217_AS-Element_90_links" block_methoden.import_block(block_as,lib_doc,doc) layer, color = block_methoden.get_insert_color_layer(lib_doc,block_as) if block_es != None: block_es = block_methoden.dreh_block(block_es,doc,lib_doc,math.radians(winkel_es)) if voerder_richtung == "Auf": start = (x , y+ dy - esoffset_y,upper_hoehe_gefaehlle + esoffset_z) ende = (x , y1 ,z1) block_vario.add_blockref(block_es, (start[0]-x ,start[1]+esoffset_y-y ,start[2] - esoffset_z-hoehe_gefaehlle),dxfattribs={"rotation": 180,"layer": layer,"color": color}) return start,ende elif(voerder_richtung == "Ab"): start = (x , y1 ,z1) ende = (x , y - dy + esoffset_y,lower_hoehe_gefaehlle + esoffset_z) block_vario.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset_y-y ,ende[2] - esoffset_z -hoehe_gefaehlle),dxfattribs={"layer": layer,"color": color}) return start, ende elif am_kreisel == None and blockname not in doc.blocks: block = doc.blocks.new(name=blockname, base_point=(0,0,0)) start = (x , y + dy,upper_hoehe_gefaehlle) ende = (x , y - dy + esoffset_y,lower_hoehe_gefaehlle + esoffset_z) 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.add_blockref(block_es, (ende[0]-x ,ende[1]- esoffset_y -y ,ende[2] -hoehe_gefaehlle ),dxfattribs={"layer": layer,"color": color}) if block_as != None: block_as = block_methoden.dreh_block(block_as,doc,lib_doc,math.radians(winkel_as)) if voerder_richtung == "Auf": start = (x , y1,z1) ende = (x , y - dy + asoffset_y ,lower_hoehe_gefaehlle) block_vario.add_blockref(block_as,(ende[0]-x ,ende[1]-asoffset_y -y,ende[2] - esoffset_z - hoehe_gefaehlle ),dxfattribs={"rotation": 180,"layer": layer,"color": color}) return start, ende elif voerder_richtung == "Ab": start = (x , y +dy - asoffset_y,upper_hoehe_gefaehlle - asoffset_z) ende = (x , y1 ,z1) block_vario.add_blockref(block_as,(start[0]-x ,start[1]+asoffset_y -y,start[2] + asoffset_z - hoehe_gefaehlle),dxfattribs={"layer": layer,"color": color}) return start,ende elif am_kreisel == None and blockname not in doc.blocks: block = doc.blocks.new(name=blockname, base_point=(0,0,0)) start = (x , y +dy - asoffset_y,upper_hoehe_gefaehlle- asoffset_z) 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.add_blockref(block_as,(start[0]-x ,start[1]+asoffset_y -y,start[2] + asoffset_z - hoehe_gefaehlle)) else: if (( drehung0 == "GUZS" and drehung1 == "GUZS") or (voerder_richtung != None and drehung0 == "GUZS" and drehung1 == "GUZS")): block_as = "200000241_AS-Element_90_rechts" block_methoden.import_block(block_as,lib_doc,doc) block_es = "200000146_ES-Element_90_rechts" block_methoden.import_block(block_es,lib_doc,doc) as_layer, as_color = block_methoden.get_insert_color_layer(lib_doc,block_as) es_layer, es_color = block_methoden.get_insert_color_layer(lib_doc,block_es) elif (((drehung0 == "GUZS" and drehung1 == "UZS" and hight_position == "higher")or (drehung0 == "UZS" and drehung1 == "GUZS" and hight_position == "lower")) or (voerder_richtung == "Auf" and drehung0 == "UZS"and drehung1 == "GUZS") or (voerder_richtung == "Ab" and drehung0 == "GUZS" and drehung1 == "UZS")) : block_as = "200000241_AS-Element_90_rechts" block_methoden.import_block(block_as,lib_doc,doc) block_es = "400102632_ES-Element_90_links" block_methoden.import_block(block_es,lib_doc,doc) as_layer, as_color = block_methoden.get_insert_color_layer(lib_doc,block_as) es_layer, es_color = block_methoden.get_insert_color_layer(lib_doc,block_es) elif (( drehung0 == "UZS" and drehung1 == "UZS") or (voerder_richtung != None and drehung0 == "UZS" and drehung1 == "UZS")): block_as = "200000217_AS-Element_90_links" block_methoden.import_block(block_as,lib_doc,doc) block_es = "400102632_ES-Element_90_links" block_methoden.import_block(block_es,lib_doc,doc) as_layer, as_color = block_methoden.get_insert_color_layer(lib_doc,block_as) es_layer, es_color = block_methoden.get_insert_color_layer(lib_doc,block_es) elif ((((drehung0 == "UZS" and drehung1 == "GUZS" and hight_position== "higher")or (drehung0 == "GUZS" and drehung1 == "UZS" and hight_position == "lower")))or (voerder_richtung == "Auf" and drehung0 == "GUZS" and drehung1 == "UZS") or (voerder_richtung == "Ab" and drehung0 == "UZS"and drehung1 == "GUZS")) : block_as = "200000217_AS-Element_90_links" block_methoden.import_block(block_as,lib_doc,doc) block_es = "200000146_ES-Element_90_rechts" block_methoden.import_block(block_es,lib_doc,doc) as_layer, as_color = block_methoden.get_insert_color_layer(lib_doc,block_as) es_layer, es_color = block_methoden.get_insert_color_layer(lib_doc,block_es) block_as = block_methoden.dreh_block(block_as,doc,lib_doc,math.radians(winkel_as)) block_es = block_methoden.dreh_block(block_es,doc,lib_doc,math.radians(winkel_es)) halbe_laenge = laenge / 2 dy = halbe_laenge * math.cos(0) if hight_position != None and blockname not in doc.blocks: block = doc.blocks.new(name=blockname, base_point=(0,0,0)) start = (x , y + dy - asoffset_y,upper_hoehe_gefaehlle- asoffset_z) ende = (x , y - dy + esoffset_y,lower_hoehe_gefaehlle + esoffset_z) 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.add_blockref(block_as,(start[0]-x ,start[1]+asoffset_y -y,start[2] + asoffset_z - hoehe_gefaehlle),dxfattribs={"layer": as_layer,"color": as_color}) block.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset_y -y,ende[2] - esoffset_z - hoehe_gefaehlle ),dxfattribs={"layer": es_layer,"color": es_color}) return if voerder_richtung == "Auf": start = (x , y + dy - esoffset_y,upper_hoehe_gefaehlle + esoffset_z) ende = (x , y - dy + asoffset,lower_hoehe_gefaehlle -asoffset_z) block_vario.add_blockref(block_es,(start[0]-x ,start[1]+esoffset_y -y,start[2] - esoffset_z - hoehe_gefaehlle ),dxfattribs={"rotation": 180,"layer": as_layer,"color": as_color}) block_vario.add_blockref(block_as, (ende[0]-x ,ende[1]-asoffset_y -y,ende[2] + asoffset_z - hoehe_gefaehlle ),dxfattribs={"rotation": 180,"layer": es_layer,"color": es_color}) return start,ende elif voerder_richtung == "Ab": start = (x , y + dy - asoffset_y,upper_hoehe_gefaehlle - asoffset_z) ende = (x , y - dy + esoffset_y,lower_hoehe_gefaehlle + esoffset_z) block_vario.add_blockref(block_as,(start[0]-x ,start[1]+asoffset_y -y,start[2] + asoffset_z - hoehe_gefaehlle),dxfattribs={"layer": as_layer,"color": as_color}) block_vario.add_blockref(block_es, (ende[0]-x ,ende[1]-esoffset_y -y,ende[2] - esoffset_z - hoehe_gefaehlle),dxfattribs={"layer": es_layer,"color": es_color}) return start,ende def am_kreisel_direct_verbunden(x, y, upper_hoehe_gefaehlle, lower_hoehe_gefaehlle, x0_kreisel, y0_kreisel, richtung_rad0, abstand0, dx, dy, x1_kreisel, y1_kreisel, richtung_rad1, abstand1,kreisel_verbunden= None, richtung0 = None, richtung1 = None, richtung2 = None): if kreisel_verbunden == None: kreisel_verbunden = 0 unterschiedlich = False am_kreisel = 0 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)) if (x1_kreisel != None): 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)) # berechnung der geraden einmal abgerunden und einmal gerunden zur negirung des offsets 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 if(richtung0 != None and richtung0 != None): 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" unterschiedlich = True else: richtung2 = "Horinzontal" unterschiedlich = True return richtung2, unterschiedlich return richtung2, unterschiedlich # 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 (x1_kreisel == None): return am_kreisel,kreisel_verbunden 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 return am_kreisel,kreisel_verbunden