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Put mkAssocElems in the TranslatorSession.
[matthijs/master-project/cλash.git]
/
Sim.hs
diff --git
a/Sim.hs
b/Sim.hs
index 0820d1360935fed93e908879c54f1e2f2ca8f613..5a8fe2d56c9b3a808619bf04c86127d6b065f3c8 100644
(file)
--- a/
Sim.hs
+++ b/
Sim.hs
@@
-1,4
+1,4
@@
-module Sim (simulate,
Circuit, simulateIO
) where
+module Sim (simulate,
SCircuit, Circuit, simulateIO, stateless
) where
import Data.Typeable
simulate f input s = do
import Data.Typeable
simulate f input s = do
@@
-12,39
+12,48
@@
simulate f input s = do
output = run f input s
-- A circuit with input of type a, state of type s and output of type b
output = run f input s
-- A circuit with input of type a, state of type s and output of type b
-type Circuit a s b = a -> s -> (s, b)
+type SCircuit i s o = i -> s -> (s, o)
+type Circuit i o = i -> o
-run ::
Circuit a s b -> [a] -> s -> [(s, b
)]
+run ::
SCircuit i s o -> [i] -> s -> [(i, o, s
)]
run f (i:input) s =
run f (i:input) s =
- (
s', o
): (run f input s')
+ (
i, o, s'
): (run f input s')
where
(s', o) = f i s
run _ [] _ = []
where
(s', o) = f i s
run _ [] _ = []
-simulateIO :: (Read
a, Show b, Show s) => Sim.Circuit a s b
-> s -> IO()
+simulateIO :: (Read
i, Show i, Show o, Show s) => SCircuit i s o
-> s -> IO()
simulateIO c s = do
putStr "Initial State: "
putStr $ show s
putStr "\n\n"
runIO c s
simulateIO c s = do
putStr "Initial State: "
putStr $ show s
putStr "\n\n"
runIO c s
-runIO :: (Read
a, Show b, Show s) => Sim.Circuit a s b
-> s -> IO()
+runIO :: (Read
i, Show i, Show o, Show s) => SCircuit i s o
-> s -> IO()
runIO f s = do
runIO f s = do
- putStr "\nInput
:
"
+ putStr "\nInput
?
"
line <- getLine
if (line == "") then
return ()
else
let i = (read line) in do
let (s', o) = f i s in do
line <- getLine
if (line == "") then
return ()
else
let i = (read line) in do
let (s', o) = f i s in do
- printOutput (
s', o
)
+ printOutput (
i, o, s'
)
simulateIO f s'
simulateIO f s'
-printOutput :: (Show s, Show o) => (s, o) -> IO ()
-printOutput (s, o) = do
- putStr "Output: "
+printOutput :: (Show i, Show o, Show s) => (i, o, s) -> IO ()
+printOutput (i, o, s) = do
+ putStr "Input: "
+ putStr $ show i
+ putStr "\nOutput: "
putStr $ show o
putStr "\nNew State: "
putStr $ show s
putStr "\n\n"
putStr $ show o
putStr "\nNew State: "
putStr $ show s
putStr "\n\n"
+
+-- Takes a stateless circuit and turns it into a stateful circuit (with an
+-- empty state) so it can be used in simulation
+stateless :: Circuit i o -> SCircuit i () o
+stateless f = \i s -> (s, f i)
+
-- vim: set ts=8 sw=2 sts=2 expandtab:
-- vim: set ts=8 sw=2 sts=2 expandtab: