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Pythagoras tree (fractal)

master
Joshua Moerman 13 years ago
parent
commit
3b686a81df
  1. 164
      py_tree

164
py_tree

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-- will make a pythagorian tree-like thing with a given depth (depth 0 are leaves)
-- this is a costy operation and takes lots of blocks (you can refill during the build)
-- depth 1 => 8 blocks, depth 2 => 64 blocks, depth 3 => ~384 blocks, depth n => 2^(2n + 1)*n (some blocks may overlap)
-- we will always face to the tree and not move forward
-- orientation will define left/right/up/down
-- basic movement (orientation-less)
local function bup()
while not turtle.up() do turtle.digUp() end
end
local function bdown()
while not turtle.down() do turtle.digDown() end
end
local function bforward()
while not turtle.forward() do turtle.dig() end
end
local function bleft()
turtle.turnLeft()
bforward()
turtle.turnRight()
end
local function bright()
turtle.turnRight()
bforward()
turtle.turnLeft()
end
local function select_non_empty( )
local i = 1
while turtle.getItemCount(i) == 0 do i = i+1 end
if not turtle.select(i) then
print("ERROR: I'm empty, press any key to continue, waiting for filling plz")
while turtle.getItemCount(9) == 0 do end
select_non_empty()
end
end
local function place()
select_non_empty()
turtle.place()
end
-- basic orientation operations
local function toleft( orientation )
return (orientation + 3) % 4
end
local function toback( orientation )
return (orientation + 2) % 4
end
local function toright( orientation )
return (orientation + 1) % 4
end
-- basic movement (with orientation)
local function forward( orientation )
if orientation == 0 then bup()
elseif orientation == 1 then bright()
elseif orientation == 2 then bdown()
elseif orientation == 3 then bleft()
else print("Error, wrong orientation")
end
end
-- TODO: make more efficient, we are not placing blocks...
local function walk( orientation, n )
for i = 1, n do
forward(orientation)
end
end
-- stops after the line
local function line( orientation, n )
for i = 1, n do
place()
forward(orientation)
end
end
-- stops after the rect
local function fill( w, h, orientation )
print(" fill "..w.."x"..h.." in orientation "..orientation)
if w == 1 then
line(orientation, h)
return
end
for i = 1, h do
if i % 2 == 1 then line(toright(orientation), w - 1)
else line(toleft(orientation), w - 1) end
place()
forward(orientation)
end
end
local function tree( depth, orientation )
print("Start with "..depth.." in orientation "..orientation)
-- done with recursion
if depth == 0 then
place()
walk(toback(orientation), 1)
return
end
local n = 2^depth
local half = n/2
local w = n
local h = n + half
-- big chunk, if needed move to left
fill(w, h, orientation)
if h % 2 == 1 then
walk(toleft(orientation), w - 1)
end
walk(toleft(orientation), 1)
line(toleft(orientation), half)
-- first branch (left)
tree(depth - 1, toleft(orientation))
line(orientation, half)
-- second branch (left)
tree(depth - 1, orientation)
-- fill between branches
if half - 1 > 0 then
forward(toright(orientation))
fill(half - 1, half - 1, toright(orientation))
else
walk(toright(orientation), 1)
end
-- walk to right branches
walk(toright(orientation), w)
-- fill between branches
if half - 2 > 0 then
fill(half - 1, half - 2, orientation)
end
walk(orientation, 1)
-- first branch
tree(depth - 1, orientation)
line(toright(orientation), half)
-- second branch
tree(depth - 1, toright(orientation))
line(toback(orientation), half - 1)
line(toleft(orientation), half)
-- move back to pre-begin
walk(toback(orientation), h)
walk(toleft(orientation), w - 1)
walk(toback(orientation), 1)
end
local args = { ... }
tree(args[1], 0)