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# coding: utf-8 import os, sys from z3 import *
from itertools import combinations
pretty_print = True
# get the playground information if len(sys.argv) != 2: print("Usage: python3 seating-arrangement.py <wedding-file>") sys.exit(0)
def faulty_line(line, num): print("Faulty input at line " + str(num) + ". Ignoring '" + line + "'")
# data structures prepared for you guests = set() friends = [] foes = [] longest_name_len = 0
def add_to_guest_list(a,b=None): guests.add(a) if b != None: guests.add(b)
def longest_name(a,b=None): global longest_name_len if len(a) > longest_name_len: longest_name_len = len(a) if b != None and len(b) > longest_name_len : longest_name_len = len(b)
solver = Solver()
################################### Parse Guests and Constraints ####################################
# todo: create a sort Guest
with open(sys.argv[1]) as f: wedding = f.read() wedding = wedding.strip().split("\n") linenum = 0 for line in wedding: linenum += 1 if line[0] == '#': continue if line.rstrip(): info = line.split(" ")
if len(info) == 1: # todo: initialize Z3 Const and add single guest to 'guests' list add_to_guest_list() longest_name(info[0]) continue
if len(info) != 3: faulty_line(line, linenum) continue
# todo: initialize Z3 Consts and add two guests to 'guests' list longest_name(info[0], info[2]) if info[1] == "dislikes": # todo add pair of guests as foes pass elif info[1] == "likes": # todo add pair of guests as friends else: faulty_line(line, linenum) continue # todo: add two guests to 'guests' list
################################### Wedding Guests ####################################
# todo create an uninterpreted function from your sort to integers
# todo create a function which returns whether two guests are sitting next to each other def neigbours(a, b): pass
# todo all guests must be seated at the big table # check the indices here for guest in guests: pass
# todo no two guests should sit on the same position for combination in combinations(guests,2): #todo pass
#todo friends should be neigbours for (a,b) in friends: #todo pass
#todo foes should not be neigbours for (a,b) in foes: # todo pass
# check satisfiability res = solver.check() if res != sat: print("unsat") sys.exit(1) m = solver.model()
################################################################################
arrangement = ["" for guest in range(len(guests))] for guest in guests: arrangement[m.evaluate(position(guest),model_completion=True).as_long()] = guest.decl().name()
def print_table(): side_length = round(len(guests)/4) top = arrangement[0:side_length] right = arrangement[side_length:2*side_length] bottom = arrangement[2*side_length:3*side_length] left = arrangement[3*side_length:] while len(left) < len(right): left.append("") while len(right) < len(left): right.append("") table_line_length = longest_name_len + 1
print("\n")
top_row = "" top_row += (longest_name_len + 1) * " " for top_guest in top: top_row += top_guest + " " table_line_length += len(top_guest) + 1 print(top_row) print((longest_name_len + 1) * " " + table_line_length * "-")
first_element = True for left_guest, right_guest in zip(reversed(left), right): row = "" if not first_element: row += longest_name_len * " " row += "|" + ">"* (table_line_length) + "|" print(row) row = "" else: first_element = False row += left_guest.rjust(longest_name_len) + "|" + "<"* (table_line_length) + "|" + right_guest print(row)
print((longest_name_len + 1) * " " + table_line_length * "-") bottom_row = "" bottom_row += (longest_name_len + 1) * " " for bottom_guest in reversed(bottom): bottom_row += bottom_guest + " " print(bottom_row) print("\n")
if(pretty_print): print_table() print("Seating plan:") print(arrangement)
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