3 import Language.Haskell.Syntax
5 main = do show_add exp_adder; show_add rec_adder;
7 show_add f = do print ("Sum: " ++ (displaysigs s)); print ("Carry: " ++ (displaysig c))
9 a = [High, High, High, High]
10 b = [Low, Low, Low, High]
13 -- Not really an adder, but this is nice minimal hardware description
17 -- Not really an adder either, but a slightly more complex example
21 -- Not really an adder either, but a slightly more complex example
23 invinv a = hwnot (hwnot a)
25 -- Not really an adder either, but a slightly more complex example
26 dup :: Bit -> (Bit, Bit)
29 -- Combinatoric stateless no-carry adder
31 no_carry_adder :: (Bit, Bit) -> Bit
32 no_carry_adder (a, b) = a `hwxor` b
34 -- Combinatoric stateless half adder
36 half_adder :: (Bit, Bit) -> (Bit, Bit)
38 ( a `hwxor` b, a `hwand` b )
40 -- Combinatoric stateless full adder
41 -- (A, B, C) -> (S, C)
42 full_adder :: (Bit, Bit, Bit) -> (Bit, Bit)
43 full_adder (a, b, cin) = (s, c)
45 s = a `hwxor` b `hwxor` cin
46 c = a `hwand` b `hwor` (cin `hwand` (a `hwxor` b))
50 -- [a] -> [b] -> ([s], cout)
51 exp_adder :: ([Bit], [Bit]) -> ([Bit], Bit)
53 exp_adder ([a3,a2,a1,a0], [b3,b2,b1,b0]) =
54 ([s3, s2, s1, s0], c3)
56 (s0, c0) = full_adder (a0, b0, Low)
57 (s1, c1) = full_adder (a1, b1, c0)
58 (s2, c2) = full_adder (a2, b2, c1)
59 (s3, c3) = full_adder (a3, b3, c2)
61 -- Any number of bits adder
63 -- [a] -> [b] -> ([s], cout)
64 rec_adder :: ([Bit], [Bit]) -> ([Bit], Bit)
66 rec_adder ([], []) = ([], Low)
67 rec_adder ((a:as), (b:bs)) =
70 (rest, cin) = rec_adder (as, bs)
71 (s, cout) = full_adder (a, b, cin)
73 -- Four bit adder, using the continous adder below
74 -- [a] -> [b] -> ([s], cout)
76 -- ([s3, s2, s1, s0], c)
78 -- ((s0, _):(s1, _):(s2, _):(s3, c):_) = con_adder (zip ((reverse as) ++ lows) ((reverse bs) ++ lows))
80 -- Continuous sequential version
81 -- Stream a -> Stream b -> Stream (sum, cout)
82 --con_adder :: Stream (Bit, Bit) -> Stream (Bit, Bit)
84 -- Forward to con_adder_int, but supply an initial state
86 -- con_adder_int pin Low
88 -- Stream a -> Stream b -> state -> Stream (s, c)
89 --con_adder_int :: Stream (Bit, Bit) -> Bit -> Stream (Bit, Bit)
90 --con_adder_int ((a,b):rest) cin =
91 -- (s, cout) : con_adder_int rest cout
93 -- (s, cout) = full_adder a b cin
95 -- vim: set ts=8 sw=2 sts=2 expandtab: