X-Git-Url: https://git.stderr.nl/gitweb?p=matthijs%2Fmaster-project%2Fc%CE%BBash.git;a=blobdiff_plain;f=HighOrdAlu.hs;h=8467c38d92ad815bc55053937a5445aac4a0f01f;hp=f49d5110c5673b0cca7d1164a80972b5a4028525;hb=HEAD;hpb=f428ef73d3c779bf00e9d493bad4eddf5bb9d0cb

diff --git a/HighOrdAlu.hs b/HighOrdAlu.hs
index f49d511..8467c38 100644
--- a/HighOrdAlu.hs
+++ b/HighOrdAlu.hs
@@ -1,33 +1,31 @@
-module HighOrdAlu where
-
-import Prelude hiding (
-  null, length, head, tail, last, init, take, drop, (++), map, foldl, foldr,
-  zipWith, zip, unzip, concat, reverse, iterate )
-import Bits
-import Types
-import Data.Param.TFVec
-import Data.RangedWord
+{-# LANGUAGE TemplateHaskell, ScopedTypeVariables, NoImplicitPrelude #-}
 
-constant :: e -> Op D4 e
-constant e a b =
-  e +> (e +> (e +> (singleton e )))
+module HighOrdAlu where
 
-invop :: Op n Bit
-invop a b = map hwnot a
+import qualified Prelude as P
+import CLasH.HardwareTypes
+import CLasH.Translator.Annotations
 
+import HighOrdAluOps
 
-andop :: Op n Bit
-andop a b = zipWith hwand a b
+{-# ANN sim_input TestInput#-}
+sim_input :: [(Opcode, Vector D4 (SizedInt D8), Vector D4 (SizedInt D8))]
+sim_input = [ (High,  $(vectorTH ([4,3,2,1]::[SizedInt D8])), $(vectorTH ([1,2,3,4]::[SizedInt D8])))
+            , (High,  $(vectorTH ([4,3,2,1]::[SizedInt D8])), $(vectorTH ([1,2,3,4]::[SizedInt D8])))
+            , (Low,   $(vectorTH ([4,3,2,1]::[SizedInt D8])), $(vectorTH ([1,2,3,4]::[SizedInt D8]))) ]
 
-type Op n e = (TFVec n e -> TFVec n e -> TFVec n e)
-type Opcode = Bit
+{-# ANN actual_alu InitState #-}
+initstate = High
 
-alu :: Op n e -> Op n e -> Opcode -> TFVec n e -> TFVec n e -> TFVec n e
+alu :: Op n e -> Op n e -> Opcode -> Vector n e -> Vector n e -> Vector n e
 alu op1 op2 opc a b =
   case opc of
     Low -> op1 a b
     High -> op2 a b
 
-actual_alu :: Opcode -> TFVec D4 Bit -> TFVec D4 Bit -> TFVec D4 Bit
+{-# ANN actual_alu TopEntity #-}
+actual_alu :: (Opcode, Vector D4 (SizedInt D8), Vector D4 (SizedInt D8)) -> Vector D4 (SizedInt D8)
 --actual_alu = alu (constant Low) andop
-actual_alu = alu invop andop
+actual_alu (opc, a, b) = alu (anyset (+) (0 :: SizedInt D8)) (andop (-)) opc a b
+
+runalu = P.map actual_alu sim_input