r = Graph() r.init_rectgrid(Interval(m,n),include_corners=False,wrap=False,cellsize=1) init_r = 99 * [0] init_r.append(1) r.init_rvals([init_r]) t= History(r) #execfile(base_path+rule_fname) #fin = open(base_path+rule_fname) #test_string = fin.readlines() #fin.close() #exec(test_string) t.set_rule(base_path+rule_fname) t.set_params(param) t.generate(no_gen) t.set_color_dict(prop_colors) t.write_images(f_name,path) def a_count(v,i,a): ret = 0 for j in a: if j[i] == v : ret += 1 return ret
r.to_csv(f_name, path) else: # r.init_ppm(init_fname,base_path+'\\maps\\',color_dict) r.from_csv(init_fname, base_path) p = r.parcel_list() footprint = r.parcel_fp(p[0], len(state_dict)) floor_area = r.parcel_flr(p[0], len(state_dict)) if out_fname != "": r.to_csv(out_fname, base_path) t = History(r) t.set_dict(color_dict, state_dict) t.set_rule(base_path + '\\rules\\' + rule_fname) t.set_vis(base_path + '\\rules\\' + vis_fname) t.set_params(param) t.generate(no_gen) if param[28] == 1: t.write_svgs(f_name, path, display_size) t.hist[-1].neighbors(13, len(state_dict)) t.hist[-1].to_csv(f_name, path) t.write_parcels(f_name, path) t.write_parcels(f_name, path, len(t.hist) - 1) def a_count(v, i, a): ret = 0 for j in a:
else: # r.init_ppm(init_fname,base_path+'\\maps\\',color_dict) r.from_csv(init_fname,base_path) p = r.parcel_list() footprint = r.parcel_fp(p[0], len(state_dict)) floor_area = r.parcel_flr(p[0], len(state_dict)) if out_fname != "": r.to_csv(out_fname,base_path) t= History(r) t.set_dict(color_dict,state_dict) t.set_rule(base_path+'\\rules\\'+rule_fname) t.set_vis(base_path+'\\rules\\'+vis_fname) t.set_params(param) t.generate(no_gen) if param[28] == 1 : t.write_svgs(f_name,path, display_size) t.hist[-1].neighbors(13,len(state_dict)) t.hist[-1].to_csv(f_name,path) t.write_parcels(f_name,path) t.write_parcels(f_name,path, len(t.hist)-1) def a_count(v,i,a): ret = 0
r.init_rectgrid(Interval(m, n), include_corners=False, wrap=False, cellsize=1) init_r = 19 * [0] + [1] #init_r = [0,1,2] r.init_rvals([init_r]) #r.to_svg("svg_out11",color_dict,cdim=Interval(1000,1000)) t = History(r) #execfile(base_path+rule_fname) #fin = open(base_path+rule_fname) #test_string = fin.readlines() #fin.close() #exec(test_string) t.set_rule(base_path + rule_fname) t.set_params(param) t.generate(no_gen) t.set_color_dict(prop_colors) t.write_svgs(f_name, path) def a_count(v, i, a): ret = 0 for j in a: if j[i] == v: ret += 1 return ret