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Maze generation
#11
(10-21-2024, 11:37 AM)johnno56 Wrote:
(10-20-2024, 11:26 AM)kevin Wrote: ... On a separate note, do you (or anyone else) have any demonstration or tips on creating one, for solving a maze (ie finding the route out of the maze) by the quickest route?

I have a BBCBasic program that generates a maze then shows how it searches the maze for the exit. I am not sure if it can be converted to N7, but if you want to try, I can post a copy.

J
Hi Johnno, yes please, I would love to give it a go.....
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#12
I think there's a maze solver (pathfinder library) included in n6. But I can't remember or check if the source code is included right now.
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#13
(10-21-2024, 11:48 AM)kevin Wrote:
(10-21-2024, 11:37 AM)johnno56 Wrote:
(10-20-2024, 11:26 AM)kevin Wrote: ... On a separate note, do you (or anyone else) have any demonstration or tips on creating one, for solving a maze (ie finding the route out of the maze) by the quickest route?

I have a BBCBasic program that generates a maze then shows how it searches the maze for the exit. I am not sure if it can be converted to N7, but if you want to try, I can post a copy.

J
Hi Johnno, yes please, I would love to give it a go.....

As you wish...
.zip   maze.zip (Size: 976 bytes / Downloads: 3)

(10-21-2024, 06:33 PM)Marcus Wrote: I think there's a maze solver (pathfinder library) included in n6. But I can't remember or check if the source code is included right now.

You are incorrect. There "is" a pathfinder library in N6... "Think"? pfftt...  lol

.zip   pathfinder.zip (Size: 4.74 KB / Downloads: 4)
Logic is the beginning of wisdom.
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#14
Thanks both, I will study both of these tomorrow......
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#15
Tomorrow? It "is" tomorrow... Well... for those of us on "this" side of the planet... lol Have a great rest!
Logic is the beginning of wisdom.
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#16
I woke up two hours early and couldn't fall asleep again Sad So I did some n7 coding before work ...

Here I use the n6 path finder converted to n7 to solve mazes. I believe the original code, by John, was meant for controlling characters in top-down tilemap games by clicking with the mouse. So the "optimizations" (search order in FindPathRec) probably just slows things down in mazes like these.

Code:
set window "maze", 320, 240, false, 2
set redraw off

randomize time()

' Generate maze and convert to a suitable format.
maze = GenerateMaze(24, 24)
map = fill([wall: true], sizeof(maze)*2 + 1, sizeof(maze[0])*2 + 1)
for x = 0 to sizeof(maze) - 1  for y = 0 to sizeof(maze[0]) - 1
    map[x*2 + 1][y*2 + 1].wall = false
    if maze[x][y].l = true  map[x*2][y*2 + 1].wall = false
    if maze[x][y].u = true  map[x*2 + 1][y*2].wall = false
next
' Display the map.
set color 0, 0, 0
cls
set color 255, 255, 255
side = 4
for x = 0 to sizeof(map) - 1  for y = 0 to sizeof(map[0]) - 1
    dx = x*side; dy = y*side
    if map[x][y].wall  draw rect x*side, y*side, side, side, true
next
' Find a path from top left to bottom right corner. FindPath returns an array of objects with x
' and y fields.
path = FindPath(map, 1, 1, sizeof(map) - 2, sizeof(map[0]) - 2)
' Display solution. Let d be an index for the path array, increase it by one every frame.
d = 0
set color 0, 128, 200
while not mousebutton(0, true)
    ' Draw current step in the path.
    if d < sizeof(path)
        draw rect path[d].x*side, path[d].y*side, side, side, true
        d = d + 1
    endif
    redraw
    fwait 30
wend

' FindPath
' --------
' Find path in map from (srcX, srcY) to (dstX, dstY) as an array of objects with x and y fields. If
' no path could be found, an empty array is returned. The map must be a 2d array, map[x][y], where
' each element is an object with a wall field that tells whether the position is blocked or not.
function FindPath(map, srcX, srcY, dstX, dstY)
    for x = 0 to sizeof(map) - 1 for y = 0 to sizeof(map[0]) - 1  map[x][y].dist = unset
    result = []
    FindPathRec(map, srcX, srcY, dstX, dstY, 0, result)
    return result

    ' FindPathRec
    ' -----------
    function FindPathRec(map, x, y, dstX, dstY, distance, result)
        if x < 0 or x >= sizeof(map)  return false
        if y < 0 or y >= sizeof(map[0])  return false
        if map[x][y].wall  return false
        if typeof(map[x][y].dist) and map[x][y].dist <= distance  return false
        map[x][y].dist = distance
        if x = dstX and y = dstY
            clear result
            result[distance] = [x: x, y: y]
            return true
        endif
   
        dx = dstX - x
        dy = dstY - y
        if |dx| > |dy|
            if dx < 0
                resLeft = FindPathRec(map, x - 1, y, dstX, dstY, distance + 1, result)
                if dy < 0
                    resUp = FindPathRec(map, x, y - 1, dstX, dstY, distance + 1, result)
                    resRight = FindPathRec(map, x + 1, y, dstX, dstY, distance + 1, result)
                    resDown = FindPathRec(map, x, y + 1, dstX, dstY, distance + 1, result)
                else
                    resDown = FindPathRec(map, x, y + 1, dstX, dstY, distance + 1, result)
                    resRight = FindPathRec(map, x + 1, y, dstX, dstY, distance + 1, result)
                    resUp = FindPathRec(map, x, y - 1, dstX, dstY, distance + 1, result)
                endif
            else
                resRight = FindPathRec(map, x + 1, y, dstX, dstY, distance + 1, result)
                if dy < 0
                    resUp = FindPathRec(map, x, y - 1, dstX, dstY, distance + 1, result)
                    resLeft = FindPathRec(map, x - 1, y, dstX, dstY, distance + 1, result)
                    resDown = FindPathRec(map, x, y + 1, dstX, dstY, distance + 1, result)
                else
                    resDown = FindPathRec(map, x, y + 1, dstX, dstY, distance + 1, result)
                    resLeft = FindPathRec(map, x - 1, y, dstX, dstY, distance + 1, result)
                    resUp = FindPathRec(map, x, y - 1, dstX, dstY, distance + 1, result)
                endif
            endif
        else
            if dy < 0
                resUp = FindPathRec(map, x, y - 1, dstX, dstY, distance + 1, result)
                if dx < 0
                    resLeft = FindPathRec(map, x - 1, y, dstX, dstY, distance + 1, result)
                    resDown = FindPathRec(map, x, y + 1, dstX, dstY, distance + 1, result)
                    resRight = FindPathRec(map, x + 1, y, dstX, dstY, distance + 1, result)
                else
                    resRight = FindPathRec(map, x + 1, y, dstX, dstY, distance + 1, result)
                    resDown = FindPathRec(map, x, y + 1, dstX, dstY, distance + 1, result)
                    resLeft = FindPathRec(map, x - 1, y, dstX, dstY, distance + 1, result)
                endif
            else
                resDown = FindPathRec(map, x, y + 1, dstX, dstY, distance + 1, result)
                if dx < 0
                    resLeft = FindPathRec(map, x - 1, y, dstX, dstY, distance + 1, result)
                    resUp = FindPathRec(map, x, y - 1, dstX, dstY, distance + 1, result)
                    resRight = FindPathRec(map, x + 1, y, dstX, dstY, distance + 1, result)
                else
                    resRight = FindPathRec(map, x + 1, y, dstX, dstY, distance + 1, result)
                    resUp = FindPathRec(map, x, y - 1, dstX, dstY, distance + 1, result)
                    resLeft = FindPathRec(map, x - 1, y, dstX, dstY, distance + 1, result)
                endif
            endif
        endif
        if resLeft or resRight or resUp or resDown
            result[distance] = [x: x, y: y]
            return true       
        else
            return false
        endif
    endfunc
endfunc

function GenerateMaze(w, h)
    maze = fill([vis: false, dead: false, l: false, r: false, u: false, d: false], w, h)
    GenerateMazeRec(maze, rnd(sizeof(maze)), rnd(sizeof(maze[0])), 0)
    return maze

    function GenerateMazeRec(maze, x, y, dir)
        if x < 0 or x >= sizeof(maze) or y < 0 or y >= sizeof(maze[0])  return false
        if maze[x][y].vis  return false
        maze[x][y].vis = true
        if dir = 1
            maze[x][y].r = true
            maze[x + 1][y].l = true
        elseif dir = 2
            maze[x][y].l = true
            maze[x - 1][y].r = true
        elseif dir = 3
            maze[x][y].d = true
            maze[x][y + 1].u = true
        elseif dir = 4
            maze[x][y].u = true
            maze[x][y - 1].d = true
        endif
        visit = [1, 2, 3, 4]
        count = 0
        while sizeof(visit)
            index = rnd(sizeof(visit))
            if visit[index] = 1  count = count + GenerateMazeRec(maze, x - 1, y, 1)
            elseif visit[index] = 2  count = count + GenerateMazeRec(maze, x + 1, y, 2)
            elseif visit[index] = 3  count = count + GenerateMazeRec(maze, x, y - 1, 3)
            else  count = count + GenerateMazeRec(maze, x, y + 1, 4)
            free key visit, index
        wend
        maze[x][y].dead = count = 0
        return true
    endfunc
endfunc
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#17
Many thanks - I started to look at this, and Johnno's BBC Basic example, yesterday, but:
- the BBC Basic lost me very quickly (I've never looked at BBC Basic before)
- the pathfinder library in N6 just left me realizing how much I have forgotten about N6 - pretty much everything Smile
All the best - Kevin
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#18
Yeah... I had the same reaction to BBC... Most of the Basic is fairly straight forward, but the way it handles arrays(?) has me totally confused... but, then again, it doesn't take much for that to happen... lol I am still learning N7 (and a little of N6 as well)... Same here... I forget stuff pretty easily too... lol
Logic is the beginning of wisdom.
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