add some docs/reorder Circuit.hs

This commit is contained in:
Stefan Bühler 2010-06-18 22:32:39 +02:00
parent 3715552a5d
commit 2e50982e56

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@ -5,13 +5,40 @@ import Data.List
type Nat = Int
-- Circuit Syntax:
-- <inPin>:[<gates>]:<outPin>
-- each Pin is either "X" (circuit IN or OUT)
-- or <gate-number> + ("L" | "R")
-- gates are numbered from 0
-- one gate is <inPinLeft><inPinRight>0#<outPinLeft><outPinRight>
-- obviously you specify the connector of the other side
-- (0 is probably the gate "function")
-- this contains redundancy ofc, it would be enough to specify only the in pins of the gates and the circuit OUT
-- (internal representation)
-- this is the gate function for "0#" (no other function found until now)
gate0 :: (Nat, Nat) -> (Nat, Nat)
gate0 (l,r) = (makef [0,2,1,1,0,2,2,1,0] (l,r), makef [2,2,2,2,0,1,2,1,0] (l,r))
-- helper to create gate functions
-- values for [(0,0),(0,1),(0,2),(1,0),(1,1),(1,2),(2,0),(2,1),(2,2)]
makef l x = fromJust $ lookup x $ zip [(i,j) | i <- [0..2], j <- [0..2]] l
--
execcirc :: Circuit -> [Nat]
key_circuit = parseCircuit key_circuit_str
key_circuit_str = "19L:12R13R0#1R12R,14R0L0#4R9L,9R10R0#3L8L,2L17R0#5L9R,15R1L0#10R13R,3L18R0#6L15L,5L11R0#13L12L,19R16R0#11R8R,2R7R0#11L10L,1R3R0#18L2L,8R4L0#16L2R,8L7L0#15R6R,6R0R0#14L0L,6L4R0#14R0R,12L13L0#17L1L,5R11L0#16R4L,10L15L0#17R7R,14L16L0#18R3R,9L17L0#19R5R,X18L0#X7L:19L"
-- goal: Find a circuit with test_key_circ circ == True
test_key_circ :: Circuit -> Bool
test_key_circ circ = (key == execcirc circ)
factory0 = parseCircuit "0L:X0R0#X0R:0L"
fact0_output = readstream "02120112100002120"
test0 = fact0_output == execcirc factory0
data Circuit = Circuit { outPin :: Int, inPins :: [Int] } deriving (Eq)
instance Show Circuit where
@ -31,6 +58,7 @@ showCircuit (Circuit op inpins) = (formatPin ip) ++ ":" ++ (joinWith "," (nodes
nodes (a:b:i) (c:d:o) = ((formatPin a) ++ (formatPin b) ++ "0#" ++ (formatPin c) ++ (formatPin d)):nodes i o
joinWith sep [] = []
joinWith sep (x:xs) = (x ++) $ concat $ map (sep ++) xs
-- build reverse pin mapping
(ip:outpins) = map snd $ sort $ zip (op:inpins) [-1..]
formatPin p = if (-1 == p) then "X" else (show (p `div` 2)) ++ (if even p then "L" else "R")
@ -86,25 +114,16 @@ readCircuit = do
doparse p s = fst $ head $ readP_to_S p s
parseCircuit s = doparse readCircuit s
key_circuit = parseCircuit key_circuit_str
key_circuit_str = "19L:12R13R0#1R12R,14R0L0#4R9L,9R10R0#3L8L,2L17R0#5L9R,15R1L0#10R13R,3L18R0#6L15L,5L11R0#13L12L,19R16R0#11R8R,2R7R0#11L10L,1R3R0#18L2L,8R4L0#16L2R,8L7L0#15R6R,6R0R0#14L0L,6L4R0#14R0R,12L13L0#17L1L,5R11L0#16R4L,10L15L0#17R7R,14L16L0#18R3R,9L17L0#19R5R,X18L0#X7L:19L"
factory0 = parseCircuit "0L:X0R0#X0R:0L"
execfactory :: (a, (a, Nat) -> (a, Nat)) -> [Nat] -> [Nat]
execfactory (s, f) [] = []
execfactory (s, f) (x:xs) = o:execfactory (t, f) xs where (t, o) = f (s, x)
execcirc circ = execfactory (circfactory circ) input
readstream :: String -> [Int]
readstream = map (\c -> read [c] :: Int)
input = readstream "01202101210201202"
output = readstream "02120112100002120"
key_input = [0,2,2,2,2,2,2,0,2,1,0,1,1,0,0,1,1]
key = execfactory (circfactory key_circuit) key_input
test0 = output == execfactory (circfactory factory0) input
test_key_circ :: Circuit -> Bool
test_key_circ circ = (key == execfactory (circfactory circ) input)