import rhinoscriptsyntax as rs import random as ran # delete everything allobjs = rs.AllObjects() rs.DeleteObjects(allobjs) #Dom-ino A = 5.0 # A = Module size distance between columns B = A/3 # B= dictance of columns to end of plate thick = 0.2 # thickness of all slabs hgt = 2.7 # height of room xcol = 2 # columns in x direction ycol = 3 # columns in y direction levels = 6 # number of floor plates f_height = 0.5 # foundation height f_size = 0.8 # foundation edge size center_pt = [A*(xcol-1)/2, A*(ycol-1)/2, f_height] p_width = A*(xcol-1) + 2*B p_length = A*(ycol-1) + f_size # make a box def make_box(insertion = [0,0,0], xsize=10, ysize=10, zsize=10): corners = [[0,0,0], [xsize,0,0], [xsize,ysize,0], [0,ysize,0], [0,0,zsize],[xsize,0,zsize],[xsize,ysize,zsize],[0,ysize,zsize]] box = rs.AddBox(corners) rs.MoveObject(box, (-xsize/2, -ysize/2,0)) rs.MoveObject(box, insertion) return(box) # create a field of foundations def make_foundations (A = 5.0, f_size = 0.8, f_height = 0.5, xcol=xcol, ycol=ycol): fns = [] for i in range (xcol): for j in range (ycol): fns.append(make_box([i*A,j*A,0], f_size, f_height, 0.5)) return(fns) # create a field of columns def make_columns (A = 5, level=0.7, thick=0.2, hgt=3, xcol=xcol, ycol=ycol): cls = [] for i in range (xcol): for j in range (ycol): cls.append(make_box([i*A,j*A,level], thick, thick, hgt)) return(cls) # building f_list = [] # list of foundations c_list = [] # list of columns p_list = [] # list of plates for i in range (levels): center_pt[2] = f_height + i*(thick+hgt) level = f_height + thick + (i-1) * (hgt + thick) if i == 0: f_list = make_foundations(A, f_size, f_height, xcol, ycol) else: c_list.extend(make_columns(A, level, thick, hgt, xcol, ycol)) p_list.append(make_box(center_pt, p_width, p_length, thick)) rs.AddLayer("foundation") rs.LayerColor("foundation",(220,60,60)) rs.ObjectLayer(f_list, "foundation") rs.AddLayer("columns") rs.LayerColor("columns",(60,220,60)) rs.ObjectLayer(c_list, "columns") rs.AddLayer("plates") rs.LayerColor("plates",(60,60,220)) rs.ObjectLayer(p_list, "plates") # Facade levels = 5 def make_facade(center_pt, width, height, levels, thick=0.2, f_height=0.5): facades = [] for i in range(levels): base_z = f_height + i * (thick + hgt) # Start-Hoehe fuer die Fassade top_z = base_z + hgt # End-Hoehe der Fassade fuer dieses Level # Frontfassade p1 = [center_pt[0] - width/2, center_pt[1] - p_length/2, base_z] p2 = [center_pt[0] + width/2, center_pt[1] - p_length/2, base_z] p3 = [center_pt[0] + width/2, center_pt[1] - p_length/2, top_z] #p4 = [center_pt[0] - width/2, center_pt[1] - p_length/2, top_z] facades.append(rs.AddSrfPt([p1, p2, p3,])) # Rueckfassade (Back) p1 = [center_pt[0] - width/2, center_pt[1] + p_length/2, base_z] p2 = [center_pt[0] + width/2, center_pt[1] + p_length/2, base_z] p3 = [center_pt[0] + width/2, center_pt[1] + p_length/2, top_z] #p4 = [center_pt[0] - width/2, center_pt[1] + p_length/2, top_z] facades.append(rs.AddSrfPt([p1, p2, p3,])) # Linke Fassade p1 = [center_pt[0] - width/2, center_pt[1] - p_length/2, base_z] p2 = [center_pt[0] - width/2, center_pt[1] + p_length/2, base_z] p3 = [center_pt[0] - width/2, center_pt[1] + p_length/2, top_z] #p4 = [center_pt[0] - width/2, center_pt[1] - p_length/2, top_z] facades.append(rs.AddSrfPt([p1, p2, p3,])) # Rechte Fassade p1 = [center_pt[0] + width/2, center_pt[1] - p_length/2, base_z] p2 = [center_pt[0] + width/2, center_pt[1] + p_length/2, base_z] p3 = [center_pt[0] + width/2, center_pt[1] + p_length/2, top_z] #p4 = [center_pt[0] + width/2, center_pt[1] - p_length/2, top_z] facades.append(rs.AddSrfPt([p1, p2, p3,])) return facades # make Facade f_list = [] center_pt = [A*(xcol-1)/2, A*(ycol-1)/2, f_height] f_list.extend(make_facade(center_pt, p_width, p_length, levels, thick, f_height)) # Fassade in Layer rs.AddLayer("facade") rs.LayerColor("facade", (255, 180, 180)) rs.ObjectLayer(f_list, "facade")