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local wea_c = worldeditadditions_core
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local Vector3 = wea_c.Vector3
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---
-- @module worldeditadditions
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----------------------------------
-- function to print out the world
----------------------------------
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local function printspace3d ( space , w , h , d )
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for z = 0 , d - 1 , 1 do
for y = 0 , h - 1 , 1 do
local line = " "
for x = 0 , w - 1 , 1 do
line = line .. space [ z ] [ y ] [ x ]
end
print ( line )
end
print ( " " )
end
end
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local function generate_maze3d ( seed , width , height , depth , path_length , path_width , path_depth )
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if not path_length then path_length = 2 end
if not path_width then path_width = 1 end
if not path_depth then path_depth = 1 end
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-- print("Generating maze "..width.."x"..height.."x"..depth.." | path: length "..path_length.." width "..path_width.." depth "..path_depth)
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math.randomseed ( seed ) -- seed the random number generator with the system clock
local world = { }
for z = 0 , depth , 1 do
world [ z ] = { }
for y = 0 , height , 1 do
world [ z ] [ y ] = { }
for x = 0 , width , 1 do
world [ z ] [ y ] [ x ] = " # "
end
end
end
-- do a random walk to create pathways
local nodes = { } -- the nodes left that we haven't investigated
local curnode = 1 -- the node we are currently operating on
local cx , cy , cz = 1 , 1 , 1 -- our current position
table.insert ( nodes , { x = cx , y = cy , z = cz } )
world [ cz ] [ cy ] [ cx ] = " "
while # nodes > 0 do
-- io.write("Nodes left: " .. curnode .. "\r")
--print("Nodes left: " .. #nodes)
local directions = " " -- the different directions we can move in
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if cz - path_length > 0 and world [ cz - path_length ] [ cy ] [ cx ] == " # " then
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directions = directions .. " - "
end
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if cz + path_length < depth - path_depth and world [ cz + path_length ] [ cy ] [ cx ] == " # " then
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directions = directions .. " + "
end
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if cy - path_length > 0 and world [ cz ] [ cy - path_length ] [ cx ] == " # " then
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directions = directions .. " u "
end
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if cy + path_length < height - path_width and world [ cz ] [ cy + path_length ] [ cx ] == " # " then
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directions = directions .. " d "
end
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if cx - path_length > 0 and world [ cz ] [ cy ] [ cx - path_length ] == " # " then
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directions = directions .. " l "
end
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if cx + path_length < width - path_width and world [ cz ] [ cy ] [ cx + path_length ] == " # " then
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directions = directions .. " r "
end
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-- If this is 1 or less, then we will switch our attention to another candidate node after moving
local shift_attention = math.random ( 0 , 3 )
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--print("radar output: '" .. directions .. "' (length: " .. #directions .. "), curnode: " .. curnode)
if # directions > 0 then
-- we still have somewhere that we can go
local curdirnum = math.random ( 1 , # directions )
local curdir = string.sub ( directions , curdirnum , curdirnum )
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if curdir == " + " then
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for iz = cz , cz + path_length + ( path_depth - 1 ) do
for ix = cx , cx + ( path_width - 1 ) do
for iy = cy , cy + ( path_width - 1 ) do
world [ iz ] [ iy ] [ ix ] = " "
end
end
end
-- world[cz + 1][cy][cx] = " "
-- world[cz + 2][cy][cx] = " "
cz = cz + path_length
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elseif curdir == " - " then
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for iz = cz - path_length , cz do
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for ix = cx , cx + ( path_width - 1 ) do
for iy = cy , cy + ( path_width - 1 ) do
world [ iz ] [ iy ] [ ix ] = " "
end
end
end
-- world[cz - 1][cy][cx] = " "
-- world[cz - 2][cy][cx] = " "
cz = cz - path_length
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elseif curdir == " u " then
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for iz = cz , cz + ( path_depth - 1 ) do
for ix = cx , cx + ( path_width - 1 ) do
for iy = cy - path_length , cy do
world [ iz ] [ iy ] [ ix ] = " "
end
end
end
-- world[cz][cy - 1][cx] = " "
-- world[cz][cy - 2][cx] = " "
cy = cy - path_length
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elseif curdir == " d " then
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for iz = cz , cz + ( path_depth - 1 ) do
for ix = cx , cx + ( path_width - 1 ) do
for iy = cy , cy + path_length + ( path_width - 1 ) do
world [ iz ] [ iy ] [ ix ] = " "
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-- print("[tunnel/d] ("..ix..", "..iy..", "..iz..")")
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end
end
end
-- world[cz][cy + 1][cx] = " "
-- world[cz][cy + 2][cx] = " "
cy = cy + path_length
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elseif curdir == " l " then
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for iz = cz , cz + ( path_depth - 1 ) do
for iy = cy , cy + ( path_width - 1 ) do
for ix = cx - path_length , cx do
world [ iz ] [ iy ] [ ix ] = " "
end
end
end
-- world[cz][cy][cx - 1] = " "
-- world[cz][cy][cx - 2] = " "
cx = cx - path_length
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elseif curdir == " r " then
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for iz = cz , cz + ( path_depth - 1 ) do
for iy = cy , cy + ( path_width - 1 ) do
for ix = cx , cx + path_length + ( path_width - 1 ) do
world [ iz ] [ iy ] [ ix ] = " "
end
end
end
-- world[cz][cy][cx + 1] = " "
-- world[cz][cy][cx + 2] = " "
cx = cx + path_length
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end
table.insert ( nodes , { x = cx , y = cy , z = cz } )
else
table.remove ( nodes , curnode )
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end
if # directions == 0 or shift_attention <= 1 then
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if # nodes > 0 then
curnode = math.random ( 1 , # nodes )
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cx = nodes [ curnode ] [ " x " ]
cy = nodes [ curnode ] [ " y " ]
cz = nodes [ curnode ] [ " z " ]
end
end
end
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return world
end
-- local world = maze(os.time(), width, height)
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--- Generates a 3D maze.
-- **Algorithm origin:** https://starbeamrainbowlabs.com/blog/article.php?article=posts/070-Language-Review-Lua.html
--
-- The defined region must be at least 3 x 3 x 3 (x, y, z) for a maze to generate.
-- @param pos1 Vector3 pos1 of the defined region to draw the 3D maze in in.
-- @param pos2 Vector3 pos2 of the defined region to draw the 3D maze in in.
-- @param target_node string The (normalised) node name to draw the maze in.
-- @param path_length=2 number Step this many nodes forwards at once when generating the maze. Higher values create long thin corridors.
-- @param path_width=1 number Make all corridors this number of nodes wide when generating the maze. Higher values result in wider corridors.
-- **Caution:** Make sure this value is not higher than `path_length - 1`, otherwise the maze algorithm won't work right!
-- @param path_depth=1 number Make all corridors this number of nodes tall when generating the maze. Higher values results in higher ceilings in the maze.
-- **Caution:** The same warning as with `path_width` applies here also!
-- @returns number The number of nodes replaced (i.e. the volume fo the region defined by pos1 and pos2).
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function worldeditadditions . maze3d ( pos1 , pos2 , target_node , seed , path_length , path_width , path_depth )
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pos1 , pos2 = Vector3.sort ( pos1 , pos2 )
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-- pos2 will always have the highest co-ordinates now
-- getExtent() returns the number of nodes in the VoxelArea, which might be larger than we actually asked for
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local extent = ( pos2 - pos1 ) + 1
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-- minetest.log("action", "extent: ("..extent.x..", "..extent.y..", "..extent.z..")")
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if extent.x < 3 or extent.y < 3 or extent.z < 3 then
minetest.log ( " info " , " [worldeditadditions/maze] error: either x, y, or z of the extent were less than 3 " )
return 0
end
-- Fetch the nodes in the specified area
local manip , area = worldedit.manip_helpers . init ( pos1 , pos2 )
local data = manip : get_data ( )
local node_id_air = minetest.get_content_id ( " air " )
local node_id_target = minetest.get_content_id ( target_node )
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-- minetest.log("action", "pos1: " .. pos1)
-- minetest.log("action", "pos2: " .. pos2)
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-- minetest.log("action", "Generating "..extent.x.."x"..extent.z.."x"..extent.z.." 3d maze from pos1 " .. pos1.." to pos2 "..pos2)
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local maze = generate_maze3d ( seed , extent.z , extent.y , extent.x , path_length , path_width , path_depth ) -- x & z need to be the opposite way around to how we index it
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-- printspace3d(maze, extent.z, extent.y, extent.x)
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-- z y x is the preferred loop order, but that isn't really possible here
for z = pos2.z , pos1.z , - 1 do
for x = pos2.x , pos1.x , - 1 do
for y = pos2.y , pos1.y , - 1 do
local maze_x = ( x - pos1.x ) -- - 1
local maze_y = ( y - pos1.y ) -- - 1
local maze_z = ( z - pos1.z ) -- - 1
if maze_x < 0 then maze_x = 0 end
if maze_y < 0 then maze_y = 0 end
if maze_z < 0 then maze_z = 0 end
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-- minetest.log("action", "x: "..x..", y: "..y..", z: "..z..", pos x: "..maze_x..", pos z: "..maze_z)
-- minetest.log("action", "value: "..maze[maze_x][maze_y][maze_z])
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if maze [ maze_x ] [ maze_y ] [ maze_z ] == " # " then
data [ area : index ( x , y , z ) ] = node_id_target
else
data [ area : index ( x , y , z ) ] = node_id_air
end
end
end
end
-- Save the modified nodes back to disk & return
worldedit.manip_helpers . finish ( manip , data )
return extent.x * extent.y * extent.z
end