#!/usr/bin/python3

import os, SAT_lib, GoL_SAT_utils, SL_common, my_utils

W=20 # WIDTH
H=20 # HEIGHT

#s=SAT_lib.SAT_lib(SAT_solver="minisat")
s=SAT_lib.SAT_lib(SAT_solver="plingeling")
#s=SAT_lib.SAT_lib(SAT_solver="picosat")
VAR_FALSE=s.const_false
grid=[[s.create_var() for w in range(W)] for h in range(H)]

def try_again ():
    # rules for the main part of grid
    for r in range(H):
        for c in range(W):
            s.add_clauses (SL_common.gen_SL(GoL_SAT_utils.coords_to_var(grid, VAR_FALSE, r, c, H, W),
                                               GoL_SAT_utils.get_neighbours(grid, VAR_FALSE, r, c, H, W)))
   
    # cells behind visible grid must always be false:
    for c in range(-1, W+1):
        for r in [-1,H]:
            s.add_clauses (GoL_SAT_utils.cell_is_false(GoL_SAT_utils.coords_to_var(grid, VAR_FALSE, r, c, H, W),
                                                      GoL_SAT_utils.get_neighbours(grid, VAR_FALSE, r, c, H, W)))
    for c in [-1,W]:
        for r in range(-1, H+1):
            s.add_clauses (GoL_SAT_utils.cell_is_false(GoL_SAT_utils.coords_to_var(grid, VAR_FALSE, r, c, H, W),
                                                      GoL_SAT_utils.get_neighbours(grid, VAR_FALSE, r, c, H, W)))
    # each row must contain at least one cell!
    for r in range(H):
        s.OR_always ([GoL_SAT_utils.coords_to_var(grid, VAR_FALSE, r, c, H, W) for c in range(W)])

    # each column must contain at least one cell!
    for c in range(W):
        s.OR_always ([GoL_SAT_utils.coords_to_var(grid, VAR_FALSE, r, c, H, W) for r in range(H)])
           
    if s.solve()==False:
        return None
    
    t=GoL_SAT_utils.SAT_solution_to_grid(grid, VAR_FALSE, s.solution, H, W)
    GoL_SAT_utils.print_grid(t)
    GoL_SAT_utils.write_RLE(t)

    return t

while True:
    solution=try_again()
    if solution==None:
        break

    s.add_clause(SAT_lib.negate_clause(GoL_SAT_utils.grid_to_clause(solution, grid, VAR_FALSE, H, W)))
    s.add_clause(SAT_lib.negate_clause(GoL_SAT_utils.grid_to_clause(my_utils.reflect_vertically(solution), grid, VAR_FALSE, H, W)))
    s.add_clause(SAT_lib.negate_clause(GoL_SAT_utils.grid_to_clause(my_utils.reflect_horizontally(solution), grid, VAR_FALSE, H, W)))
    # is this square?
    if W==H:
        s.add_clause(SAT_lib.negate_clause(GoL_SAT_utils.grid_to_clause(my_utils.rotate_rect_array(solution,1), grid, VAR_FALSE, H, W)))
        s.add_clause(SAT_lib.negate_clause(GoL_SAT_utils.grid_to_clause(my_utils.rotate_rect_array(solution,2), grid, VAR_FALSE, H, W)))
        s.add_clause(SAT_lib.negate_clause(GoL_SAT_utils.grid_to_clause(my_utils.rotate_rect_array(solution,3), grid, VAR_FALSE, H, W)))
    print ("")