def test1(self): """ Split the following form into regions: xxx x x x x """ test_field3 = self.make_free_map() test_field3[0][6].set_unknown() test_field3[0][7].set_unknown() test_field3[0][8].set_unknown() test_field3[1][6].set_unknown() test_field3[2][6].set_unknown() test_field3[1][8].set_unknown() test_field3[2][8].set_unknown() cm = ClusterRegions() cm.set_field(test_field3) cm.print_field() print "Returned regions: " + str(cm.group_regions()) print "Grouping done" cm.print_segmented_field() c = cm.get_result_map() regions = cm.get_result_regions() print "Region count: " + str(len(regions)) for r in regions: print r print "Distance of region to (0,0): " + str( r.euclidean_distance_to_avg(0, 0)) cubified_field = cm.cubify_regions() cm.print_2d_field(cubified_field) regions_not_sorted = cm.split_and_cubify_regions() # Check the cells of the splitted regions regions = sorted(regions_not_sorted) self.assertEquals(len(regions), 3) muh = [[[0, 6], [0, 7], [0, 8]], [[1, 6], [2, 6]], [[1, 8], [2, 8]]] self.assertTrue(regions[0].cell_coords in muh) self.assertTrue(regions[1].cell_coords in muh) self.assertTrue(regions[2].cell_coords in muh)
def test1(self): """ Split the following form into regions: xxx x x x x """ test_field3 = self.make_free_map() test_field3[0][6].set_unknown() test_field3[0][7].set_unknown() test_field3[0][8].set_unknown() test_field3[1][6].set_unknown() test_field3[2][6].set_unknown() test_field3[1][8].set_unknown() test_field3[2][8].set_unknown() cm = ClusterRegions() cm.set_field(test_field3) cm.print_field() print "Returned regions: " + str(cm.group_regions()) print "Grouping done" cm.print_segmented_field() c = cm.get_result_map() regions = cm.get_result_regions() print "Region count: " + str(len(regions)) for r in regions: print r print "Distance of region to (0,0): " + str(r.euclidean_distance_to_avg(0,0)) cubified_field = cm.cubify_regions() cm.print_2d_field(cubified_field) regions_not_sorted = cm.split_and_cubify_regions() # Check the cells of the splitted regions regions = sorted(regions_not_sorted) self.assertEquals(len(regions), 3) muh = [[[0,6],[0,7],[0,8]], [[1,6],[2,6]], [[1,8],[2,8]]] self.assertTrue(regions[0].cell_coords in muh) self.assertTrue(regions[1].cell_coords in muh) self.assertTrue(regions[2].cell_coords in muh)
field[0][8] = Cell() field[0][8].set_unknown() field[1][7] = Cell() field[1][7].set_unknown() field[2][6] = Cell() field[2][6].set_unknown() # field[1][8] = Cell() # field[1][8].set_unknown() # field[2][8] = Cell() # field[2][8].set_unknown() return field cm = ClusterRegions() cm.set_field(test_field4()) cm.print_field() print "Returned regions: " + str(cm.group_regions()) print "Grouping done" cm.print_segmented_field() c = cm.get_result_map() regions = cm.get_result_regions() print "Region count: " + str(len(regions)) for r in regions: print r print "Distance of region to (0,0): " + str(r.euclidean_distance_to_avg(0,0)) cubified_field = cm.cubify_regions() cm.print_2d_field(cubified_field) cm.split_and_cubify_regions()
field[1][7] = Cell() field[1][7].set_unknown() field[2][6] = Cell() field[2][6].set_unknown() # field[1][8] = Cell() # field[1][8].set_unknown() # field[2][8] = Cell() # field[2][8].set_unknown() return field cm = ClusterRegions() cm.set_field(test_field4()) cm.print_field() print "Returned regions: " + str(cm.group_regions()) print "Grouping done" cm.print_segmented_field() c = cm.get_result_map() regions = cm.get_result_regions() print "Region count: " + str(len(regions)) for r in regions: print r print "Distance of region to (0,0): " + str( r.euclidean_distance_to_avg(0, 0)) cubified_field = cm.cubify_regions() cm.print_2d_field(cubified_field) cm.split_and_cubify_regions()