# Help finding longest non-repeating path through connected nodes - Python

I've been working on this for a couple of days now without success. Basically, I have a bunch of nodes arranged in a 2D matrix. Every node has four neighbors, except for the nodes on the sides and corners of the matrix, which have 3 and 2 neighbors, respectively. Imagine a bunch of square cards laid out side by side in a rectangular area--the project is actually simulating a sort of card/board game.

Each node may or may not be connected to the nodes around it. Each node has a function (get_connections()), that returns the nodes immediately around it that it is connected to (so anywhere from 0 to 4 nodes are returned). Each node also has an "index" property, that contains it's position on the board matrix (eg '1, 4' -> row 1, col 4). What I am trying to do is find the longest non-repeating path of connected nodes given a particular "start" node.

I've uploaded a couple of images that should give a good idea of what I'm trying to do:

In both images, the highlighted red cards are supposedly the longest path of connected cards containing the most upper-left card. However, you can see in both images that a couple of cards that should be in the path have been left out (Romania and Maldova in the first image, Greece and Turkey in the second)

Here's the recursive function that I am using currently to find the longest path, given a starting node/card:

``````def get_longest_trip(self, board, processed_connections = list(),
processed_countries = list()):
#Append this country to the processed countries list,
#so we don't re-double over it
processed_countries.append(self)
possible_trips = dict()
if self.get_connections(board):
for i, card in enumerate(self.get_connections(board)):
if card not in processed_countries:
processed_connections.append((self, card))
possible_trips[i] = card.get_longest_trip(board,
processed_connections,
processed_countries)
if possible_trips:
longest_trip = []
for i, trip in possible_trips.iteritems():
trip_length = len(trip)
if trip_length > len(longest_trip):
longest_trip = trip
longest_trip.append(self)
return longest_trip
else:
print
card_list = []
card_list.append(self)
return card_list
else:
#If no connections from start_card, just return the start card
#as the longest trip
card_list = []
card_list.append(board.start_card)
return card_list
``````

The problem here has to do with the processed_countries list: if you look at my first screenshot, you can see that what has happened is that when Ukraine came around, it looked at its two possible choices for longest path (Maldova-Romania, or Turkey, Bulgaria), saw that they were both equal, and chose one indiscriminantly. Now when Hungary comes around, it can't attempt to make a path through Romania (where the longest path would actually be), because Romania has been added to the processed_countries list by Ukraine.

Any help on this is EXTREMELY appreciated. If you can find me a solution to this, recursive or not, I'd be happy to donate some \$\$ to you.

I've uploaded my full source code (Python 2.6, Pygame 1.9 required) to:

http://www.necessarygames.com/junk/planes_trains.zip

The relevant code is in src/main.py, which is all set to run.

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...Romania has been added to the processed_countries list by Ukraine.

Use separate processed_countries lists for each graph path. They say one code example is worth thousand words, so I've changed your code a little (untested):

``````def get_longest_trip(self, board, processed_countries = list()):
processed_countries = list(processed_countries)
processed_countries.append(self)

longest_trip = list()
if self.get_connections(board):
possible_trips = list()
for card in self.get_connections(board):
if card not in processed_countries:
possible_trips.append(card.get_longest_trip(board,
processed_countries))
if possible_trips:
longest_trip = max(possible_trips, key=len)
longest_trip.append(self)

if not longest_trip:
longest_trip.append(self)
return longest_trip
``````

Unrelated matters:

``````Traceback (most recent call last):
File "main.py", line 1171, in <module>
main()
File "main.py", line 1162, in main
interface = Interface(continent, screen, ev_manager)
File "main.py", line 72, in __init__
self.deck = Deck(ev_manager, continent)
File "main.py", line 125, in __init__
self.rebuild(continent)
File "main.py", line 148, in rebuild
self.stack.append(CountryCard(country, self.ev_manager))
File "main.py", line 1093, in __init__
Card.__init__(self, COUNTRY, country.name, country.image, country.color, ev_manager)
File "main.py", line 693, in __init__
self.set_text(text)
File "main.py", line 721, in set_text
self.rendered_text = self.render_text_rec(text)
File "main.py", line 817, in render_text_rec
return render_textrect(text, self.font, text_rect, self.text_color, self.text_bgcolor, 1)
File "/home/vasi/Desktop/Planes and Trains/src/textrect.py", line 47, in render_textrect
raise TextRectException, "The word " + word + " is too long to fit in the rect passed."
textrect.TextRectException: The word Montenegro is too long to fit in the rect passed.
``````

There are 16 different bak files in your source package. Sixteen. Sixteeeen. Think about it and start to use version control.

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Thank you thank you thank you Alex! Your modified version of the function works perfectly, and is nicer to look at to boot! I also appreciate your pointing out my bad practices -- I've very new to Python, and to oo programming. And yes, I NEED to start using version control. Perhaps I just needed the embarrassment of someone seeing all my ridiculous .bak files to kick me in the butt ;) . Where can I paypal you some love? –  Jordan Magnuson Mar 23 '10 at 6:31
my pleasure. And forget about money. –  alex vasi Mar 23 '10 at 10:01
Well, thanks again. –  Jordan Magnuson Mar 23 '10 at 17:26

You do know the longest path problem in a graph with cycles is NP-hard?

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Comes with a nicer algorithm than mine as well! + 1 from me. –  Charles Beattie Mar 22 '10 at 20:27
He shouldn't be to scared by the fact this problem is NP if he only has 42 nodes. –  Charles Beattie Mar 22 '10 at 20:31
Agreed with above. If you decide to implement this using a graph theory library such as python-graph the chances are it already includes a suitable algorithm. Furthermore if it does not have the algorithm the devs might be willing to do one specially for you if you have an immediate application. –  Salim Fadhley Mar 22 '10 at 20:33
Thanks very much for the helpful link Brandon! (and for the info Salim) I'm sure this would get me where I need to go, but since Alex posted an explicit solution to my problem, I'm going to make his my accepted answer. –  Jordan Magnuson Mar 23 '10 at 6:21

Brute force method:

1. Create a depth first connected list. Store List L and its Length T.

2. For each connection of this list:

• Push Whole Diagram
• Delete connection.
• Create a depth first connected list.
• If list is longer than T: set T to length and list to L then recursive call 2.
• Pop Whole Diagram.
• return

This should create a flood fill style solution of all the possible ways of connecting these nodes.

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Thank you for your insight Charles! I really appreciate it. –  Jordan Magnuson Mar 23 '10 at 6:36