# How to get array of deleted walls from maze generation code Mathematica

I am trying to get out an array of all the deleted walls from this maze generation code. Can't seem to make it work, when I ask it to print it will only give me the entire maze grid, and not the specific walls I'm asking for.

``````MazeGen2[m_, n_] :=
Block[{\$RecursionLimit = Infinity,
unvisited = Tuples[Range /@ {m, n}], maze, mazearray = {},
mazeA},
(*unvisited=Delete[unvisited,{{1},{2},{Length[
unvisited]-1},{Length[unvisited]}}];*)
(*Print[unvisited];*)

maze = {{{{#, # - {0, 1}}, {#, # - {1, 0}}}} & /@
unvisited, {{{0, n - 1}, {0, 0}, {m - 1,
0}}}};(*This generates the grid*)
Print[maze];
{unvisited = DeleteCases[unvisited, #];
(*Print[unvisited];*)
Do[
If[MemberQ[unvisited, neighbor],
maze = DeleteCases[
maze, {#, neighbor - {1, 1}} | {neighbor, # - {1, 1}}, {5}]
(*mazeA=Flatten[AppendTo[mazearray,
maze]];*)
; #0@neighbor],
{neighbor,
RandomSample@{# + {0, 1}, # - {0, 1}, # + {1, 0}, # - {1,
0}}}
]
} &@RandomChoice@unvisited;

Flatten[maze]
];
``````
-
I'm far too lazy to cut and paste a snippet which includes commented-out code whose presence just makes your function more difficult to understand. –  High Performance Mark Jul 12 '13 at 7:54
I'm too lazy even to read @HighPerformanceMark's comment –  belisarius Jul 12 '13 at 13:18
I'd suggest you (try) to write code to draw your maze. You will find your initial grid is buggered up. –  george Jul 12 '13 at 18:40
note this code borrowed from here: rosettacode.org/wiki/Maze_generation#Mathematica and badly mangled. Hopefully no one else will waste time trying to fix it. (I cant believe this question hasn't been cloded) –  george Jul 16 '13 at 14:54

I tracked down your code to the Rosetta Code site, and - by way of thanks for that! - here's how to use the graph-based alternative for maze generation. This is courtesy of user AlephAlpha:

``````MazeGraph[m_, n_] :=
Block[{\$RecursionLimit = Infinity, grid = GridGraph[{m, n}],
visited = {}},
Graph[Range[m n],
Reap[{AppendTo[visited, #];
Do[
If[FreeQ[visited, neighbor],
Sow[# <-> neighbor]; #0@neighbor],
RandomChoice@VertexList@grid][[2, 1]],
GraphLayout -> {"GridEmbedding", "Dimension" -> {m, n}},
EdgeStyle -> Directive[Opacity[1], AbsoluteThickness[12], Purple],
VertexShapeFunction -> None,
VertexLabels -> "Name",
VertexLabelStyle -> White,
Background -> LightGray,
ImageSize -> 300]];

width = height = 8;

maze = MazeGraph[width, height]
``````

Solutions are easy now that the maze is a graph:

``````path = FindShortestPath[maze, 1, Last[VertexList[maze]]];
solution = Show[
maze,
HighlightGraph[
maze,
PathGraph[path],
EdgeStyle -> Directive[AbsoluteThickness[5], White],
GraphHighlightStyle -> None]
];
``````

and also easy is to find the deleted walls - here, it's the `GraphDifference` between the original `GridGraph` and the maze:

``````hg = HighlightGraph[
GridGraph[{width, height},
EdgeStyle ->
Directive[Opacity[0.2], Blue, AbsoluteThickness[1]]],
EdgeList[GraphDifference[GridGraph[{width, height}], maze]],
Background -> LightGray,
ImageSize -> 300,
GraphHighlightStyle -> {"Thick"}];
``````

Showing all three:

``````Row[{Labeled[maze, "maze"], Spacer[12], Labeled[hg, "deleted walls"],
Labeled[solution, "solution"]}]
``````

Apologies for the styling issues - this is the hard part of using graphs... :)

-
shouldn't the path be between the walls? (just comparing against the rosetta code version) .. –  george Jul 16 '13 at 12:25
@george as I saw it, the walls are gray, the corridors are purple, the solution is white. So the deleted walls are actually deleted corridors.. :) –  cormullion Jul 16 '13 at 12:40
+ for finding the source.. –  george Jul 16 '13 at 14:31