-- | Helper module for "Quipper.Algorithms.QLS.QSignedInt": some functions
-- defined with Template Haskell.
module Quipper.Algorithms.QLS.QSignedIntAux where
import Quipper
import Quipper.Libraries.Arith
-- | Subtraction on lists of booleans, understood as big-headian,
-- unsigned integers.
-- void definition for now
be_boollist_sub :: [Bool] -> [Bool] -> [Bool]
be_boollist_sub = error "be_boollist_sub yet undefined."
-- Template version of 'be_boollist_sub'.
-- Right now, call to q_sub.
-- template_be_boollist_sub :: Circ ([Qubit] -> Circ ([Qubit] -> Circ [Qubit]))
template_be_boollist_sub = return $ \x -> return $ \y -> do
let x' = qdint_of_qulist_bh x
let y' = qdint_of_qulist_bh y
(_,_,z) <- q_sub x' y'
return $ qulist_of_qdint_bh z
-- | Addition on lists of booleans, understood as big-headian, unsigned
-- integers.
-- void definition for now.
be_boollist_add :: [Bool] -> [Bool] -> [Bool]
be_boollist_add = error "be_boollist_add yet undefined."
-- Template version of 'be_boollist_add'
-- Right now, call q_add
-- template_be_boollist_add :: Circ ([Qubit] -> Circ ([Qubit] -> Circ [Qubit]))
template_be_boollist_add = return $ \x -> return $ \y -> do
let x' = qdint_of_qulist_bh x
let y' = qdint_of_qulist_bh y
(_,_,z) <- q_add x' y'
return $ qulist_of_qdint_bh z
-- | Strict ordering on lists of booleans, understood as big-headian
-- unsigned integers. If the lists are not of equal length, the
-- shorter list is treated as if its tail were padded with zeros.
build_circuit
be_boollist_less :: [Bool] -> [Bool] -> Bool
be_boollist_less l1 l2 =
case (l1,l2) of
(a,[]) -> False
([],a) -> be_boollist_less [False] a
(h1:t1, h2:t2) ->
let parity = if h1 then h2 else not h2 in
if parity then be_boollist_less t1 t2
else h2
-- | Strict ordering on lists of booleans, understood as big-headian
-- signed integers: the 'Bool' in the pair stands for the sign: 'False'
-- is positive, 'True' is negative.
build_circuit
be_signed_boollist_less :: (Bool,[Bool]) -> (Bool,[Bool]) -> Bool
be_signed_boollist_less (b1,l1) (b2,l2) =
if b1 then (if b2 then be_boollist_less l2 l1 else True)
else (if b2 then False else be_boollist_less l1 l2)
-- | Test whether all elements of a list are 'False'.
build_circuit
boollist_is_zero :: [Bool] -> Bool
boollist_is_zero l =
case l of
[] -> True
(h:t) -> if h then boollist_is_zero t else False
-- | Addition on signed integers, encoded as big-headian lists of
-- booleans.
build_circuit
be_signed_boollist_add :: (Bool,[Bool]) -> (Bool,[Bool]) -> (Bool,[Bool])
be_signed_boollist_add (b,x) (c,y) =
let parity = if b then c else not c in
let (d,z) = if parity then (b, be_boollist_add x y)
else if (be_boollist_less x y) then (c, be_boollist_sub y x)
else (b, be_boollist_sub x y)
in if (boollist_is_zero z) then (False,z) else (d,z)