############################## import rhinoscriptsyntax as rs import random, time, sys ### sys.path.append("P:/WWW/ortii/DM2") ### import DM_lib as dm ### reload(dm) ############################## rs.UnitSystem(4) # km = 5, meters = 4, cm = 3 etc rs.ShowGrid(None, 0) # grid > 0 = off rs.ShowGridAxes(None, 1) # y/y/z axen display > 0/1 = off/on rs.ViewDisplayMode(rs.CurrentView(), "wireframe") rs.Command("cplane w t enter", 0) # cPlane World Top dm.PointRadius(displayModeX=0, rad=3, styl=3) dm.printDisplay(state=1) ### nomen est omen / printDisplay(state=1, scale=1000, thickness=1, color="Display") rs.EnableRedraw(0) ### MAC >> problem ! dm.eA ###_________________________________________# ### basic settings for grid to fit UN_slab # ### # ! no need 2 change ! floors = H = dm.H = 40 # default=40 / incl roof slabs = L = dm.L = 11 # default=11 depth = D = dm.D = 4 # default= 4 / division in building_depth floorHeight = fH = dm.fH = 4.0 # default= 4.0 / 4.0*(H-1) = 156 meters # ############# # get gridCoords L*D*H = 1760 UnoGridCoords = dm.getUnoGridCoords() # get from DM_lib as dm #################___________________________# dm.newEmptyLayer("UNO::setUp::points", [150,150,200] ) dm.newEmptyLayer("UNO::setUp::geo", [150, 20,150] ) dm.newEmptyLayer("UNO::setUp::crv", [200, 100, 100]) dm.newEmptyLayer("UNO::setUp", [120,120,140] ) ################ lengthVec = lVec = rs.VectorUnitize(rs.VectorSubtract( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord(1, 0, 0) )) ## rs.AddPoint( dm.getUnoCoord(1, 0, 0) ) depthVec = dVec = rs.VectorUnitize(rs.VectorSubtract( dm.getUnoCoord(0, 1, 0), dm.getUnoCoord(0, 0, 0) )) ## rs.AddPoint( dm.getUnoCoord(0, 1, 0) ) ################ #if 0: ### DEMOs / SETUP >> dont' exec @ homework ! # if 0: # rs.AddLine( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord(10, 0, 0) ) # rs.AddLine( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord( 0, 3, 0) ) # rs.AddLine( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord( 0, 0, 39) ) # # rs.CurveArrows(rs.AllObjects()[0], arrow_style=2) # rs.CurveArrows(rs.AllObjects()[1], arrow_style=2) # rs.CurveArrows(rs.AllObjects()[2], arrow_style=2) # # rs.ObjectColor(rs.AllObjects()[2], [0, 222, 0] ) # rs.ObjectColor(rs.AllObjects()[1], [222, 0, 0] ) # rs.ObjectColor(rs.AllObjects()[0], [0, 0, 222] ) # # rs.ObjectPrintWidth( rs.AllObjects()[0:3], 1.0 ) # # p0 = dm.getUnoCoord( 0, 0, 0) # p1 = dm.getUnoCoord( 10, 0, 0) # p2 = dm.getUnoCoord( 10, 3, 0) # p3 = dm.getUnoCoord( 0, 3, 0) # unoBaseCoords = [p0, p1, p2, p3, p0] # unoBaseCrv = rs.AddCurve( unoBaseCoords, 1) # unoTopCoords = [dm.getUnoCoord( 0, 0, 39), # dm.getUnoCoord( 10, 0, 39), # dm.getUnoCoord( 10, 3, 39), # dm.getUnoCoord( 0, 3, 39), # dm.getUnoCoord( 0, 0, 39), # ] # unoTopCrv = rs.AddCurve( unoTopCoords, 1) # rs.ZoomExtents() # if 0: #1 setzen und nummerierung sehen # ############################## # rs.CurrentLayer("UNO::setUp::points") # rs.AddPoints( UnoGridCoords ) # for i in range(L): rs.ObjectColor( rs.AddTextDot( str(i), dm.getUnoCoord(i, 0, 0) ), [0, 222, 0] ) # for i in range(D): rs.ObjectColor( rs.AddTextDot( str(i), dm.getUnoCoord(0, i, 0) ), [222, 0, 0] ) # for i in range(H): rs.ObjectColor( rs.AddTextDot( str(i), dm.getUnoCoord(0, 0, i) ), [0, 0, 222] ) # # ############################## # # # if 0: #1 setzen und was angezeigt bekommen # rs.CurrentLayer("UNO::setUp::crv") # dm.UN_slab(showAll=1) # for i in range(8): # p0 = dm.getUnoCoord( random.randint(0,L-1), random.randint(0,D-1), random.randint(0,H-1) ) # p1 = dm.getUnoCoord( random.randint(0,L-1), random.randint(0,D-1), random.randint(0,H-1) ) # rs.AddCurve( [p0, p1] ) # dm.textDots( [p0, p1] ) # rs.ZoomExtents() # if 0: # coords = UnoGridCoords[:] ### make COPY - not equal ! # random.shuffle( coords ) # rs.AddCurve( coords[0:], random.randint(1, 3) ) ################# ### abbreveation: def gC (l=1, d=2, h=3): cor = dm.getUnoCoord(l, d, h) return cor ## rs.AddPoint( gC(1,0,1) ) ################# #_____________________________here you go: dm.newEmptyLayer("myPROJ", [100,100,100]) heigthVec = hVec = rs.VectorUnitize(rs.VectorSubtract( dm.getUnoCoord(0, 0, 1), dm.getUnoCoord(0, 0, 0) )) rs.CurrentLayer("myPROJ") p0 = gC (3, 2, 39) px = rs.VectorAdd(p0, rs.VectorScale(hVec, 5)) p1 = rs.VectorAdd(px, rs.VectorScale(hVec, 60)) p2 = rs.VectorAdd(px, rs.VectorScale(dVec, -10)) p3 = rs.VectorAdd(p2, rs.VectorScale(lVec, 10)) p4 = rs.VectorAdd(p3, rs.VectorScale(hVec, -50)) p5 = rs.VectorAdd(p4, rs.VectorScale(lVec, 20)) p6 = rs.VectorAdd(p5, rs.VectorScale(dVec, 20)) p7 = rs.VectorAdd(p6, rs.VectorScale(hVec, -40)) p8 = rs.VectorAdd(p7, rs.VectorScale(dVec, 30)) p9 = rs.VectorAdd(p8, rs.VectorScale(lVec, -30)) p10 = rs.VectorAdd(p9, rs.VectorScale(hVec, -30)) p11 = rs.VectorAdd(p10, rs.VectorScale(lVec, -40)) p12 = rs.VectorAdd(p11, rs.VectorScale(dVec, -40)) p13 = rs.VectorAdd(p12, rs.VectorScale(hVec, -20)) p14 = rs.VectorAdd(p13, rs.VectorScale(dVec,-50)) p15 = rs.VectorAdd(p14, rs.VectorScale(lVec, 50)) p16 = rs.VectorAdd(p15, rs.VectorScale(hVec, -10)) p17 = rs.VectorAdd(p16, rs.VectorScale(lVec, 60)) p18 = rs.VectorAdd(p17, rs.VectorScale(dVec, 60)) p19 = rs.VectorAdd(p18, rs.VectorScale(hVec, -5)) p20 = rs.VectorAdd(p19, rs.VectorScale(dVec, 70)) p21 = rs.VectorAdd(p20, rs.VectorScale(lVec, -70)) p22 = rs.VectorAdd(p21, rs.VectorScale(hVec, -5)) p23 = rs.VectorAdd(p22, rs.VectorScale(lVec, -70)) p24 = rs.VectorAdd(p23, rs.VectorScale(dVec, -70)) coords = (p1, p2, p3, p4, p5, p6, p7, p8, p9, p10, p11, p12, p13, p14, p15, p16, p17, p18, p19, p20, p21, p22, p23, p24) crv = rs.AddCurve(coords, 23) anzCircs = 100 divCircs = 100 coords = rs.DivideCurve(crv, anzCircs, create_points=0) allCircCoordsLists = [] for cor in coords: paraX = rs.CurveClosestPoint(crv, cor) planeX = rs.CurvePerpFrame(crv, paraX) circ = rs.AddCircle(planeX, 5) coords = rs.DivideCurve(circ, divCircs, 0) rs.DeleteObject(circ) allCircCoordsLists.append(coords) crv_pnts_1 = [] crv_pnts_2 = [] crv_pnts_3 = [] crv_pnts_4 = [] crv_pnts_5 = [] crv_pnts_6 = [] crv_pnts_7 = [] crv_pnts_8 = [] crv_pnts_51 = [] crv_pnts_52 = [] crv_pnts_53 = [] crv_pnts_54 = [] ##########hilfe im internet gefunden # Kurve 1 for i in range(min(len(allCircCoordsLists), anzCircs - 1)): point = allCircCoordsLists[i % len(allCircCoordsLists)][i % len(allCircCoordsLists)] crv_pnts_1.append(point) # Kurve 2 for i in range(min(len(allCircCoordsLists), anzCircs - 2)): point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 1) % len(allCircCoordsLists)] crv_pnts_2.append(point) # Kurve 3 for i in range(min(len(allCircCoordsLists), anzCircs - 3)): point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 2) % len(allCircCoordsLists)] crv_pnts_3.append(point) # Kurve 4 for i in range(min(len(allCircCoordsLists), anzCircs - 4)): point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 3) % len(allCircCoordsLists)] crv_pnts_4.append(point) # Kurve 5 for i in range(min(len(allCircCoordsLists), anzCircs - 5)): point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 4) % len(allCircCoordsLists)] crv_pnts_5.append(point) # Kurve 6 for i in range(min(len(allCircCoordsLists), anzCircs - 6)): point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 5) % len(allCircCoordsLists)] crv_pnts_6.append(point) # Kurve 7 for i in range(min(len(allCircCoordsLists), anzCircs - 7)): point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 6) % len(allCircCoordsLists)] crv_pnts_7.append(point) # Kurve 8 for i in range(min(len(allCircCoordsLists), anzCircs - 8)): point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 7) % len(allCircCoordsLists)] crv_pnts_8.append(point) ## Kurve 1 #for i in range(min(len(allCircCoordsLists), anzCircs - 1)): # point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 50) % len(allCircCoordsLists)] # crv_pnts_51.append(point) # ## Kurve 2 #for i in range(min(len(allCircCoordsLists), anzCircs - 2)): # point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 51) % len(allCircCoordsLists)] # crv_pnts_52.append(point) # ## Kurve 3 #for i in range(min(len(allCircCoordsLists), anzCircs - 3)): # point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 52) % len(allCircCoordsLists)] # crv_pnts_53.append(point) # ## Kurve 4 #for i in range(min(len(allCircCoordsLists), anzCircs - 4)): # point = allCircCoordsLists[i % len(allCircCoordsLists)][(i + 53) % len(allCircCoordsLists)] # crv_pnts_54.append(point) # # Kurven erstellen crv_1 = rs.AddCurve(crv_pnts_1) crv_2 = rs.AddCurve(crv_pnts_2) crv_3 = rs.AddCurve(crv_pnts_3) crv_4 = rs.AddCurve(crv_pnts_4) crv_5 = rs.AddCurve(crv_pnts_5) crv_6 = rs.AddCurve(crv_pnts_6) crv_7 = rs.AddCurve(crv_pnts_7) crv_8 = rs.AddCurve(crv_pnts_8) # Farbe der Kurven zufllig setzen color_1 = (random.randint(0, 255), random.randint(0, 255), random.randint(0, 255)) color_2 = (random.randint(0, 255), random.randint(0, 255), random.randint(0, 255)) color_3 = (random.randint(0, 255), random.randint(0, 255), random.randint(0, 255)) color_4 = (random.randint(0, 255), random.randint(0, 255), random.randint(0, 255)) rs.ObjectColor(crv_1, color_1) rs.ObjectColor(crv_2, color_2) rs.ObjectColor(crv_3, color_3) rs.ObjectColor(crv_4, color_4) #____________________________:here you end ################################### dm.zA( proz=0.95 ) rs.EnableRedraw(1) ### 4 the MACs #dm.printDisplay(1) rs.CurrentLayer("Default")