Merge branch 'cλash' of http://git.stderr.nl/matthijs/projects/master-project

[matthijs/master-project/cλash.git] / Adders.hs

diff --git a/Adders.hs b/Adders.hs
index ce261668e48eb7a9afd5a8e05ddb4bd31f65edf0..2ee1de69534f144ab6f41d627fdfc7ce950e4f05 100644 (file)
--- a/Adders.hs
+++ b/Adders.hs
@@ -2,6 +2,8 @@ module Adders where
 import Bits
 import qualified Sim
 import Language.Haskell.Syntax
+import qualified Data.TypeLevel as TypeLevel
+import qualified Data.Param.FSVec as FSVec
 
 mainIO f = Sim.simulateIO (Sim.stateless f) ()
 
@@ -16,13 +18,42 @@ show_add f = do print ("Sum:   " ++ (displaysigs s)); print ("Carry: " ++ (displ
     b = [Low, Low, Low, High]
     (s, c) = f (a, b)
 
+mux2 :: Bit -> (Bit, Bit) -> Bit
+mux2 Low (a, b) = a
+mux2 High (a, b) = b
+
 -- Not really an adder, but this is nice minimal hardware description
 wire :: Bit -> Bit
 wire a = a
 
+bus :: (TypeLevel.Pos len) => BitVec len -> BitVec len
+bus v = v
+
+bus_4 :: BitVec TypeLevel.D4 -> BitVec TypeLevel.D4
+bus_4 v = v
+
+{-
+inv_n :: (Pos len) => BitVec len -> BitVec len
+inv_n v =
+  --FSVec.map hwnot v
+  inv_n_rec v
+
+class Inv vec where
+  inv_n_rec :: vec -> vec
+
+instance (Pos len) => Inv (BitVec len) where
+  inv_n_rec v = 
+    h FSVec.+> t
+    where
+      h = FSVec.head v
+      t = FSVec.tail v
+
+instance Inv (BitVec D0) where
+  inv_n_rec v = v
+-}
 -- Not really an adder either, but a slightly more complex example
 inv :: Bit -> Bit
-inv a = hwnot a
+inv a = let r = hwnot a in r
 
 -- Not really an adder either, but a slightly more complex example
 invinv :: Bit -> Bit
@@ -39,6 +70,34 @@ dff d s = (s', q)
     q = s
     s' = d
 
+type ShifterState = (Bit, Bit, Bit, Bit)
+shifter :: Bit -> ShifterState -> (ShifterState, Bit)
+shifter i (a, b, c, d) =
+  (s', d)
+  where
+    s' = (i, a, b, c)
+
+{-# NOINLINE shifter_en #-}
+shifter_en :: Bit -> Bit-> ShifterState -> (ShifterState, Bit)
+shifter_en High i (a, b, c, d) =
+  (s', d)
+  where
+    s' = (i, a, b, c)
+
+shifter_en Low i s@(a, b, c, d) =
+  (s, d)
+
+-- Two multiplexed shifters
+type ShiftersState = (ShifterState, ShifterState)
+shifters :: Bit -> Bit -> ShiftersState -> (ShiftersState, Bit)
+shifters sel i (sa, sb) =
+  (s', out)
+  where
+    (sa', outa) = shifter_en sel i sa
+    (sb', outb) = shifter_en (hwnot sel) i sb
+    s' = (sa', sb')
+    out = if sel == High then outa else outb
+
 -- Combinatoric stateless no-carry adder
 -- A -> B -> S
 no_carry_adder :: (Bit, Bit) -> Bit
@@ -47,6 +106,7 @@ no_carry_adder (a, b) = a `hwxor` b
 -- Combinatoric stateless half adder
 -- A -> B -> (S, C)
 half_adder :: (Bit, Bit) -> (Bit, Bit)
+{-# NOINLINE half_adder #-}
 half_adder (a, b) = 
   ( a `hwxor` b, a `hwand` b )
 
@@ -86,6 +146,25 @@ rec_adder ((a:as), (b:bs)) =
     (rest, cin) = rec_adder (as, bs)
     (s, cout) = full_adder (a, b, cin)
 
+foo = id
+add, sub :: Int -> Int -> Int
+add a b = a + b
+sub a b = a - b
+
+highordtest = \x ->
+  let s = foo x
+  in
+     case s of
+       (a, b) ->
+         case a of
+           High -> add
+           Low -> let
+             op' = case b of
+                High -> sub
+                Low -> \c d -> c
+             in
+                \c d -> op' d c
+
 -- Four bit adder, using the continous adder below
 -- [a] -> [b] -> ([s], cout)
 --con_adder_4 as bs =