# Tag Info

0

Well i think i solved it. Not the most efficient way, so if anyone has improvements they are more than welcome function [maze, nodes] = genMaze(tmp_maze, numOfnodes) [x,y] = find(tmp_maze==3); [n,dims] = size(tmp_maze); origin = ceil(dims/2); N = randperm(size(x,1)); D1 = bwdistgeodesic(tmp_maze>1, origin, origin,'cityblock'); maze = zeros(n,dims); ...

0

This algorithms should be able to generate mazes with distinct loop-free paths from start to goal: Starting with an empty maze (or a solid block of rock), with just the start and the goal... Subdivide the maze into three sets: Start (intially holding just the start cell), goal (initially holding just the goal cell), and undiscovered (all the rest). ...

0

Let's say you are solving your maze with a BFS: Q.push(initial_position) visited[initial_position] = true while !Q.empty cur = Q.top for n in cur.neighbors if (visited[n]) continue; Q.push(n) from[n] = cur visited[n] = true With visited, you make sure you don't visit a node twice. With from, you remember ...

0

Lets say you have: INITIAL STATE SW00WW 00W0WW W000WW W0WWWW 00000E w - wall 0 - unwalked path S - starting point E - end point (X - walked point) Explanation: What we do? We iterate 0's and mark them with X when we reach a leaf. If you have from one point other 0's going you dont mark it as X only if you are sure you dont need to return again. ...

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Recursive methods are usually used for searching. This is a depth first search for the exit. Returns true if exit is found. public boolean searchForExit(Location myLocation){ if(location.isFinish()){ location.setSolutionPath(true); return true; } location.setVisited(true); for(Location location : location.getNeighbours()){ ...

-1

How about iterating by changing the Os into Ss ? For instance: At step 0: WSOOOOFW Step 1: WSSOOOFW [..] WSSSSSFW When an S in next to F then it is solvable :) On the other side, you can choose the condition to be unsolvable: - if after length+width turns, you didn't find F, it is not solvable - if at one step, you don't change any O in S, it is ...

0

You should treat each Point as a Node that keeps track of its ancestor and children. A child is added to the list if it is not the current nodes parent and its value == 'O' Start by adding your starting node to the Queue. Pop it out and mark it visited. Add all of its children to the Queue pop them out and mark them visited. Repeat this proccess until your ...

0

Check getSurroundingWalls(), the fourth point checked is p.x+1, p.y-1 but I suppose it should be p.x, p.y-1.

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So just to come back to this. If you don't know the size of the maze to begin with I wouldn't use a 2D array. Arrays are fixed size in Java and cannot be expanded without doing expensive operations. Alternatively you could allocate your 2D array to be larger than the maze and just fill in what you have. If you know the size then you are golden in terms of ...

1

Use a loop instead, something like: def bad_goal_point?(x, y) @maze[y][x] == GOAL || @maze[y][x] == START || @maze[y][x].to_i >= 75 end def set_goal loop do x = sample_x y = sample_y break unless bad_goal_point?(x, y) end @maze[y][x] = GOAL @graphic_maze[y][x] = GOAL puts "***Goal point initialized.***\n" end

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I actually solved this by placing the following part of my code @maze[y][x] = GOAL @graphic_maze[y][x] = GOAL puts "***Goal point initialized.***\n" in an else clause. But isn't there another way to solve this? Or even implement it? I mean, a more "ruby" way...

0

Can't you simply use a while loop, which moves the character in its current direction while checking the spaces around to see if it has hit a wall or something else?

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There are many problems with your code, some of them are important, some are just efficiency issues. The main problem I can see now is not in your analysis code but rather in your diagnostics code. Look at the part in comment: /* CODE TO CHECK visited Rooms */ Nodo *temp = new Nodo(); temp=pileDG->tope; while(temp!=NULL){ cout ...

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What happens in this part of code? Node * recor; recor = new Node(); recor = pileDG->top; Isn't the new node lost forever...? You seem to place every new point visited onto the colaDG stack. I can't see however where you remove the points when you track back from dead-end paths...

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If you want to randomly select one of your controls (that is what I read your question as asking), then you want to do something like this (assuming you are using WinForms): (Controls.Find("MazeWall" + iWall + "Row" + iRow) as Label).Visible = true/false; Basically, you are searching the controls collection for a specific name (generated from your random ...

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http://social.msdn.microsoft.com/Forums/en-US/55fb3116-c978-4ac8-9381-a2605e16e256/how-do-you-create-a-random-number-in-c?forum=Vsexpressvcs You can use the Random class to create a random number between two specified numbers. I'm not sure what you are trying to do with the random numbers to decide which walls should be visible and which shouldn't. You will ...

0

Your code wont work, you cant do an sleep in the Paint method, because if you do so, he wont draw, he just waits and at the end he'll draw your whole image. If you want to do a nice effect, you should draw one step after the other but you should be aware that this is a lot of work to realize...

3

Begin with an empty field. Bisect the field with a wall, either horizontally or vertically. Add a single passage through the wall. Repeat step #2 with the areas on either side of the wall. Continue, recursively, until the maze reaches the desired resolution. Jamis Buck on Maze Generation: Recursive Backtracking

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Maze implementation has a lot of variations. All depends which of there aspects you want to use? Here is some start point Maze generation algorithm. I tried to solve this problem in the past. Instead of many words how I tried this, I guess to show code snippet. maze generator code: import java.util.ArrayList; import java.util.Collections; import ...

0

If I understand your question correctly, what I would do is: 1. create a board of a specific size (change all the coordinates to your desired number - in your example '1'). I wouldn't use a recursive function, because you will probably end up drawing the whole board (think about what will make the recursion stop). you can create a function that receives a ...

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EDIT Your new code is much better, but there are still issues: You are not creating a wall gap in splitHorizontal. You probably mean to loop to i <= maxRow and i <= maxColumn instead of strictly less than when creating the walls. As I mentioned in my previous edit, you are still blocking gaps in existing walls with new ones (whether parallel or ...

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